////
////  JSONKit.m
////  http://github.com/johnezang/JSONKit
////  Dual licensed under either the terms of the BSD License, or alternatively
////  under the terms of the Apache License, Version 2.0, as specified below.
////
//
///*
// Copyright (c) 2011, John Engelhart
// 
// All rights reserved.
// 
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
// 
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// 
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// 
// * Neither the name of the Zang Industries nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
// 
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
// TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//*/
//
///*
// Copyright 2011 John Engelhart
// 
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// 
// http://www.apache.org/licenses/LICENSE-2.0
// 
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//*/
//
//
///*
//  Acknowledgments:
//
//  The bulk of the UTF8 / UTF32 conversion and verification comes
//  from ConvertUTF.[hc].  It has been modified from the original sources.
//
//  The original sources were obtained from http://www.unicode.org/.
//  However, the web site no longer seems to host the files.  Instead,
//  the Unicode FAQ http://www.unicode.org/faq//utf_bom.html#gen4
//  points to International Components for Unicode (ICU)
//  http://site.icu-project.org/ as an example of how to write a UTF
//  converter.
//
//  The decision to use the ConvertUTF.[ch] code was made to leverage
//  "proven" code.  Hopefully the local modifications are bug free.
//
//  The code in isValidCodePoint() is derived from the ICU code in
//  utf.h for the macros U_IS_UNICODE_NONCHAR and U_IS_UNICODE_CHAR.
//
//  From the original ConvertUTF.[ch]:
//
// * Copyright 2001-2004 Unicode, Inc.
// * 
// * Disclaimer
// * 
// * This source code is provided as is by Unicode, Inc. No claims are
// * made as to fitness for any particular purpose. No warranties of any
// * kind are expressed or implied. The recipient agrees to determine
// * applicability of information provided. If this file has been
// * purchased on magnetic or optical media from Unicode, Inc., the
// * sole remedy for any claim will be exchange of defective media
// * within 90 days of receipt.
// * 
// * Limitations on Rights to Redistribute This Code
// * 
// * Unicode, Inc. hereby grants the right to freely use the information
// * supplied in this file in the creation of products supporting the
// * Unicode Standard, and to make copies of this file in any form
// * for internal or external distribution as long as this notice
// * remains attached.
//
//*/
//
//#include <stdio.h>
//#include <stdlib.h>
//#include <stdint.h>
//#include <string.h>
//#include <assert.h>
//#include <sys/errno.h>
//#include <math.h>
//#include <limits.h>
//#include <objc/runtime.h>
//
//#import "JSONKit.h"
//
////#include <CoreFoundation/CoreFoundation.h>
//#include <CoreFoundation/CFString.h>
//#include <CoreFoundation/CFArray.h>
//#include <CoreFoundation/CFDictionary.h>
//#include <CoreFoundation/CFNumber.h>
//
////#import <Foundation/Foundation.h>
//#import <Foundation/NSArray.h>
//#import <Foundation/NSAutoreleasePool.h>
//#import <Foundation/NSData.h>
//#import <Foundation/NSDictionary.h>
//#import <Foundation/NSException.h>
//#import <Foundation/NSNull.h>
//#import <Foundation/NSObjCRuntime.h>
//
//#ifndef __has_feature
//#define __has_feature(x) 0
//#endif
//
//#ifdef JK_ENABLE_CF_TRANSFER_OWNERSHIP_CALLBACKS
//#warning As of JSONKit v1.4, JK_ENABLE_CF_TRANSFER_OWNERSHIP_CALLBACKS is no longer required.  It is no longer a valid option.
//#endif
//
//#ifdef __OBJC_GC__
//#error JSONKit does not support Objective-C Garbage Collection
//#endif
//
//#if __has_feature(objc_arc)
////#error JSONKit does not support Objective-C Automatic Reference Counting (ARC)
//#endif
//
//// The following checks are really nothing more than sanity checks.
//// JSONKit technically has a few problems from a "strictly C99 conforming" standpoint, though they are of the pedantic nitpicking variety.
//// In practice, though, for the compilers and architectures we can reasonably expect this code to be compiled for, these pedantic nitpicks aren't really a problem.
//// Since we're limited as to what we can do with pre-processor #if checks, these checks are not nearly as through as they should be.
//
//#if (UINT_MAX != 0xffffffffU) || (INT_MIN != (-0x7fffffff-1)) || (ULLONG_MAX != 0xffffffffffffffffULL) || (LLONG_MIN != (-0x7fffffffffffffffLL-1LL))
//#error JSONKit requires the C 'int' and 'long long' types to be 32 and 64 bits respectively.
//#endif
//
//#if !defined(__LP64__) && ((UINT_MAX != ULONG_MAX) || (INT_MAX != LONG_MAX) || (INT_MIN != LONG_MIN) || (WORD_BIT != LONG_BIT))
//#error JSONKit requires the C 'int' and 'long' types to be the same on 32-bit architectures.
//#endif
//
//// Cocoa / Foundation uses NS*Integer as the type for a lot of arguments.  We make sure that NS*Integer is something we are expecting and is reasonably compatible with size_t / ssize_t
//
//#if (NSUIntegerMax != ULONG_MAX) || (NSIntegerMax != LONG_MAX) || (NSIntegerMin != LONG_MIN)
//#error JSONKit requires NSInteger and NSUInteger to be the same size as the C 'long' type.
//#endif
//
//#if (NSUIntegerMax != SIZE_MAX) || (NSIntegerMax != SSIZE_MAX)
//#error JSONKit requires NSInteger and NSUInteger to be the same size as the C 'size_t' type.
//#endif
//
//
//// For DJB hash.
//#define JK_HASH_INIT           (1402737925UL)
//
//// Use __builtin_clz() instead of trailingBytesForUTF8[] table lookup.
//#define JK_FAST_TRAILING_BYTES
//
//// JK_CACHE_SLOTS must be a power of 2.  Default size is 1024 slots.
//#define JK_CACHE_SLOTS_BITS    (10)
//#define JK_CACHE_SLOTS         (1UL << JK_CACHE_SLOTS_BITS)
//// JK_CACHE_PROBES is the number of probe attempts.
//#define JK_CACHE_PROBES        (4UL)
//// JK_INIT_CACHE_AGE must be < (1 << AGE) - 1, where AGE is sizeof(typeof(AGE)) * 8.
//#define JK_INIT_CACHE_AGE      (0)
//
//// JK_TOKENBUFFER_SIZE is the default stack size for the temporary buffer used to hold "non-simple" strings (i.e., contains \ escapes)
//#define JK_TOKENBUFFER_SIZE    (1024UL * 2UL)
//
//// JK_STACK_OBJS is the default number of spaces reserved on the stack for temporarily storing pointers to Obj-C objects before they can be transferred to a NSArray / NSDictionary.
//#define JK_STACK_OBJS          (1024UL * 1UL)
//
//#define JK_JSONBUFFER_SIZE     (1024UL * 4UL)
//#define JK_UTF8BUFFER_SIZE     (1024UL * 16UL)
//
//#define JK_ENCODE_CACHE_SLOTS  (1024UL)
//
//
//#if       defined (__GNUC__) && (__GNUC__ >= 4)
//#define JK_ATTRIBUTES(attr, ...)        __attribute__((attr, ##__VA_ARGS__))
//#define JK_EXPECTED(cond, expect)       __builtin_expect((long)(cond), (expect))
//#define JK_EXPECT_T(cond)               JK_EXPECTED(cond, 1U)
//#define JK_EXPECT_F(cond)               JK_EXPECTED(cond, 0U)
//#define JK_PREFETCH(ptr)                __builtin_prefetch(ptr)
//#else  // defined (__GNUC__) && (__GNUC__ >= 4) 
//#define JK_ATTRIBUTES(attr, ...)
//#define JK_EXPECTED(cond, expect)       (cond)
//#define JK_EXPECT_T(cond)               (cond)
//#define JK_EXPECT_F(cond)               (cond)
//#define JK_PREFETCH(ptr)
//#endif // defined (__GNUC__) && (__GNUC__ >= 4) 
//
//#define JK_STATIC_INLINE                         static __inline__ JK_ATTRIBUTES(always_inline)
//#define JK_ALIGNED(arg)                                            JK_ATTRIBUTES(aligned(arg))
//#define JK_UNUSED_ARG                                              JK_ATTRIBUTES(unused)
//#define JK_WARN_UNUSED                                             JK_ATTRIBUTES(warn_unused_result)
//#define JK_WARN_UNUSED_CONST                                       JK_ATTRIBUTES(warn_unused_result, const)
//#define JK_WARN_UNUSED_PURE                                        JK_ATTRIBUTES(warn_unused_result, pure)
//#define JK_WARN_UNUSED_SENTINEL                                    JK_ATTRIBUTES(warn_unused_result, sentinel)
//#define JK_NONNULL_ARGS(arg, ...)                                  JK_ATTRIBUTES(nonnull(arg, ##__VA_ARGS__))
//#define JK_WARN_UNUSED_NONNULL_ARGS(arg, ...)                      JK_ATTRIBUTES(warn_unused_result, nonnull(arg, ##__VA_ARGS__))
//#define JK_WARN_UNUSED_CONST_NONNULL_ARGS(arg, ...)                JK_ATTRIBUTES(warn_unused_result, const, nonnull(arg, ##__VA_ARGS__))
//#define JK_WARN_UNUSED_PURE_NONNULL_ARGS(arg, ...)                 JK_ATTRIBUTES(warn_unused_result, pure, nonnull(arg, ##__VA_ARGS__))
//
//#if       defined (__GNUC__) && (__GNUC__ >= 4) && (__GNUC_MINOR__ >= 3)
//#define JK_ALLOC_SIZE_NON_NULL_ARGS_WARN_UNUSED(as, nn, ...) JK_ATTRIBUTES(warn_unused_result, nonnull(nn, ##__VA_ARGS__), alloc_size(as))
//#else  // defined (__GNUC__) && (__GNUC__ >= 4) && (__GNUC_MINOR__ >= 3)
//#define JK_ALLOC_SIZE_NON_NULL_ARGS_WARN_UNUSED(as, nn, ...) JK_ATTRIBUTES(warn_unused_result, nonnull(nn, ##__VA_ARGS__))
//#endif // defined (__GNUC__) && (__GNUC__ >= 4) && (__GNUC_MINOR__ >= 3)
//
//
//@class JKArray, JKDictionaryEnumerator, JKDictionary;
//
//enum {
//  JSONNumberStateStart                 = 0,
//  JSONNumberStateFinished              = 1,
//  JSONNumberStateError                 = 2,
//  JSONNumberStateWholeNumberStart      = 3,
//  JSONNumberStateWholeNumberMinus      = 4,
//  JSONNumberStateWholeNumberZero       = 5,
//  JSONNumberStateWholeNumber           = 6,
//  JSONNumberStatePeriod                = 7,
//  JSONNumberStateFractionalNumberStart = 8,
//  JSONNumberStateFractionalNumber      = 9,
//  JSONNumberStateExponentStart         = 10,
//  JSONNumberStateExponentPlusMinus     = 11,
//  JSONNumberStateExponent              = 12,
//};
//
//enum {
//  JSONStringStateStart                           = 0,
//  JSONStringStateParsing                         = 1,
//  JSONStringStateFinished                        = 2,
//  JSONStringStateError                           = 3,
//  JSONStringStateEscape                          = 4,
//  JSONStringStateEscapedUnicode1                 = 5,
//  JSONStringStateEscapedUnicode2                 = 6,
//  JSONStringStateEscapedUnicode3                 = 7,
//  JSONStringStateEscapedUnicode4                 = 8,
//  JSONStringStateEscapedUnicodeSurrogate1        = 9,
//  JSONStringStateEscapedUnicodeSurrogate2        = 10,
//  JSONStringStateEscapedUnicodeSurrogate3        = 11,
//  JSONStringStateEscapedUnicodeSurrogate4        = 12,
//  JSONStringStateEscapedNeedEscapeForSurrogate   = 13,
//  JSONStringStateEscapedNeedEscapedUForSurrogate = 14,
//};
//
//enum {
//  JKParseAcceptValue      = (1 << 0),
//  JKParseAcceptComma      = (1 << 1),
//  JKParseAcceptEnd        = (1 << 2),
//  JKParseAcceptValueOrEnd = (JKParseAcceptValue | JKParseAcceptEnd),
//  JKParseAcceptCommaOrEnd = (JKParseAcceptComma | JKParseAcceptEnd),
//};
//
//enum {
//  JKClassUnknown    = 0,
//  JKClassString     = 1,
//  JKClassNumber     = 2,
//  JKClassArray      = 3,
//  JKClassDictionary = 4,
//  JKClassNull       = 5,
//};
//
//enum {
//  JKManagedBufferOnStack        = 1,
//  JKManagedBufferOnHeap         = 2,
//  JKManagedBufferLocationMask   = (0x3),
//  JKManagedBufferLocationShift  = (0),
//  
//  JKManagedBufferMustFree       = (1 << 2),
//};
//typedef JKFlags JKManagedBufferFlags;
//
//enum {
//  JKObjectStackOnStack        = 1,
//  JKObjectStackOnHeap         = 2,
//  JKObjectStackLocationMask   = (0x3),
//  JKObjectStackLocationShift  = (0),
//  
//  JKObjectStackMustFree       = (1 << 2),
//};
//typedef JKFlags JKObjectStackFlags;
//
//enum {
//  JKTokenTypeInvalid     = 0,
//  JKTokenTypeNumber      = 1,
//  JKTokenTypeString      = 2,
//  JKTokenTypeObjectBegin = 3,
//  JKTokenTypeObjectEnd   = 4,
//  JKTokenTypeArrayBegin  = 5,
//  JKTokenTypeArrayEnd    = 6,
//  JKTokenTypeSeparator   = 7,
//  JKTokenTypeComma       = 8,
//  JKTokenTypeTrue        = 9,
//  JKTokenTypeFalse       = 10,
//  JKTokenTypeNull        = 11,
//  JKTokenTypeWhiteSpace  = 12,
//};
//typedef NSUInteger JKTokenType;
//
//// These are prime numbers to assist with hash slot probing.
//enum {
//  JKValueTypeNone             = 0,
//  JKValueTypeString           = 5,
//  JKValueTypeLongLong         = 7,
//  JKValueTypeUnsignedLongLong = 11,
//  JKValueTypeDouble           = 13,
//};
//typedef NSUInteger JKValueType;
//
//enum {
//  JKEncodeOptionAsData              = 1,
//  JKEncodeOptionAsString            = 2,
//  JKEncodeOptionAsTypeMask          = 0x7,
//  JKEncodeOptionCollectionObj       = (1 << 3),
//  JKEncodeOptionStringObj           = (1 << 4),
//  JKEncodeOptionStringObjTrimQuotes = (1 << 5),
//  
//};
//typedef NSUInteger JKEncodeOptionType;
//
//typedef NSUInteger JKHash;
//
//typedef struct JKTokenCacheItem  JKTokenCacheItem;
//typedef struct JKTokenCache      JKTokenCache;
//typedef struct JKTokenValue      JKTokenValue;
//typedef struct JKParseToken      JKParseToken;
//typedef struct JKPtrRange        JKPtrRange;
//typedef struct JKObjectStack     JKObjectStack;
//typedef struct JKBuffer          JKBuffer;
//typedef struct JKConstBuffer     JKConstBuffer;
//typedef struct JKConstPtrRange   JKConstPtrRange;
//typedef struct JKRange           JKRange;
//typedef struct JKManagedBuffer   JKManagedBuffer;
//typedef struct JKFastClassLookup JKFastClassLookup;
//typedef struct JKEncodeCache     JKEncodeCache;
//typedef struct JKEncodeState     JKEncodeState;
//typedef struct JKObjCImpCache    JKObjCImpCache;
//typedef struct JKHashTableEntry  JKHashTableEntry;
//
//typedef id (*NSNumberAllocImp)(id receiver, SEL selector);
//typedef id (*NSNumberInitWithUnsignedLongLongImp)(id receiver, SEL selector, unsigned long long value);
//typedef id (*JKClassFormatterIMP)(id receiver, SEL selector, id object);
//#ifdef __BLOCKS__
//typedef id (^JKClassFormatterBlock)(id formatObject);
//#endif
//
//
//struct JKPtrRange {
//  unsigned char *ptr;
//  size_t         length;
//};
//
//struct JKConstPtrRange {
//  const unsigned char *ptr;
//  size_t               length;
//};
//
//struct JKRange {
//  size_t location, length;
//};
//
//struct JKManagedBuffer {
//  JKPtrRange           bytes;
//  JKManagedBufferFlags flags;
//  size_t               roundSizeUpToMultipleOf;
//};
//
//struct JKObjectStack {
//  void               **objects, **keys;
//  CFHashCode          *cfHashes;
//  size_t               count, index, roundSizeUpToMultipleOf;
//  JKObjectStackFlags   flags;
//};
//
//struct JKBuffer {
//  JKPtrRange bytes;
//};
//
//struct JKConstBuffer {
//  JKConstPtrRange bytes;
//};
//
//struct JKTokenValue {
//  JKConstPtrRange   ptrRange;
//  JKValueType       type;
//  JKHash            hash;
//  union {
//    long long          longLongValue;
//    unsigned long long unsignedLongLongValue;
//    double             doubleValue;
//  } number;
//  JKTokenCacheItem *cacheItem;
//};
//
//struct JKParseToken {
//  JKConstPtrRange tokenPtrRange;
//  JKTokenType     type;
//  JKTokenValue    value;
//  JKManagedBuffer tokenBuffer;
//};
//
//struct JKTokenCacheItem {
//  void          *object;
//  JKHash         hash;
//  CFHashCode     cfHash;
//  size_t         size;
//  unsigned char *bytes;
//  JKValueType    type;
//};
//
//struct JKTokenCache {
//  JKTokenCacheItem *items;
//  size_t            count;
//  unsigned int      prng_lfsr;
//  unsigned char     age[JK_CACHE_SLOTS];
//};
//
//struct JKObjCImpCache {
//  Class                               NSNumberClass;
//  NSNumberAllocImp                    NSNumberAlloc;
//  NSNumberInitWithUnsignedLongLongImp NSNumberInitWithUnsignedLongLong;
//};
//
//struct JKParseState {
//  JKParseOptionFlags  parseOptionFlags;
//  JKConstBuffer       stringBuffer;
//  size_t              atIndex, lineNumber, lineStartIndex;
//  size_t              prev_atIndex, prev_lineNumber, prev_lineStartIndex;
//  JKParseToken        token;
//  JKObjectStack       objectStack;
//  JKTokenCache        cache;
//  JKObjCImpCache      objCImpCache;
//  NSError            *error;
//  int                 errorIsPrev;
//  BOOL                mutableCollections;
//};
//
//struct JKFastClassLookup {
//  void *stringClass;
//  void *numberClass;
//  void *arrayClass;
//  void *dictionaryClass;
//  void *nullClass;
//};
//
//struct JKEncodeCache {
//  id object;
//  size_t offset;
//  size_t length;
//};
//
//struct JKEncodeState {
//  JKManagedBuffer         utf8ConversionBuffer;
//  JKManagedBuffer         stringBuffer;
//  size_t                  atIndex;
//  JKFastClassLookup       fastClassLookup;
//  JKEncodeCache           cache[JK_ENCODE_CACHE_SLOTS];
//  JKSerializeOptionFlags  serializeOptionFlags;
//  JKEncodeOptionType      encodeOption;
//  size_t                  depth;
//  NSError                *error;
//  id                      classFormatterDelegate;
//  SEL                     classFormatterSelector;
//  JKClassFormatterIMP     classFormatterIMP;
//#ifdef __BLOCKS__
//  JKClassFormatterBlock   classFormatterBlock;
//#endif
//};
//
//// This is a JSONKit private class.
//@interface JKSerializer : NSObject {
//  JKEncodeState *encodeState;
//}
//
//#ifdef __BLOCKS__
//#define JKSERIALIZER_BLOCKS_PROTO id(^)(id object)
//#else
//#define JKSERIALIZER_BLOCKS_PROTO id
//#endif
//
//+ (id)serializeObject:(id)object options:(JKSerializeOptionFlags)optionFlags encodeOption:(JKEncodeOptionType)encodeOption block:(JKSERIALIZER_BLOCKS_PROTO)block delegate:(id)delegate selector:(SEL)selector error:(NSError **)error;
//- (id)serializeObject:(id)object options:(JKSerializeOptionFlags)optionFlags encodeOption:(JKEncodeOptionType)encodeOption block:(JKSERIALIZER_BLOCKS_PROTO)block delegate:(id)delegate selector:(SEL)selector error:(NSError **)error;
//- (void)releaseState;
//
//@end
//
//struct JKHashTableEntry {
//  NSUInteger keyHash;
//  id key, object;
//};
//
//
//typedef uint32_t UTF32; /* at least 32 bits */
//typedef uint16_t UTF16; /* at least 16 bits */
//typedef uint8_t  UTF8;  /* typically 8 bits */
//
//typedef enum {
//  conversionOK,           /* conversion successful */
//  sourceExhausted,        /* partial character in source, but hit end */
//  targetExhausted,        /* insuff. room in target for conversion */
//  sourceIllegal           /* source sequence is illegal/malformed */
//} ConversionResult;
//
//#define UNI_REPLACEMENT_CHAR (UTF32)0x0000FFFD
//#define UNI_MAX_BMP          (UTF32)0x0000FFFF
//#define UNI_MAX_UTF16        (UTF32)0x0010FFFF
//#define UNI_MAX_UTF32        (UTF32)0x7FFFFFFF
//#define UNI_MAX_LEGAL_UTF32  (UTF32)0x0010FFFF
//#define UNI_SUR_HIGH_START   (UTF32)0xD800
//#define UNI_SUR_HIGH_END     (UTF32)0xDBFF
//#define UNI_SUR_LOW_START    (UTF32)0xDC00
//#define UNI_SUR_LOW_END      (UTF32)0xDFFF
//
//
//#if !defined(JK_FAST_TRAILING_BYTES)
//static const char trailingBytesForUTF8[256] = {
//    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
//    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
//    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
//    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
//    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
//    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
//    1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
//    2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, 3,3,3,3,3,3,3,3,4,4,4,4,5,5,5,5
//};
//#endif
//
//static const UTF32 offsetsFromUTF8[6] = { 0x00000000UL, 0x00003080UL, 0x000E2080UL, 0x03C82080UL, 0xFA082080UL, 0x82082080UL };
//static const UTF8  firstByteMark[7]   = { 0x00, 0x00, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC };
//
//#define JK_AT_STRING_PTR(x)  (&((x)->stringBuffer.bytes.ptr[(x)->atIndex]))
//#define JK_END_STRING_PTR(x) (&((x)->stringBuffer.bytes.ptr[(x)->stringBuffer.bytes.length]))
//
//
//static JKArray          *_JKArrayCreate(id *objects, NSUInteger count, BOOL mutableCollection);
//static void              _JKArrayInsertObjectAtIndex(JKArray *array, id newObject, NSUInteger objectIndex);
//static void              _JKArrayReplaceObjectAtIndexWithObject(JKArray *array, NSUInteger objectIndex, id newObject);
//static void              _JKArrayRemoveObjectAtIndex(JKArray *array, NSUInteger objectIndex);
//
//
//static NSUInteger        _JKDictionaryCapacityForCount(NSUInteger count);
//static JKDictionary     *_JKDictionaryCreate(id *keys, NSUInteger *keyHashes, id *objects, NSUInteger count, BOOL mutableCollection);
//static JKHashTableEntry *_JKDictionaryHashEntry(JKDictionary *dictionary);
//static NSUInteger        _JKDictionaryCapacity(JKDictionary *dictionary);
//static void              _JKDictionaryResizeIfNeccessary(JKDictionary *dictionary);
//static void              _JKDictionaryRemoveObjectWithEntry(JKDictionary *dictionary, JKHashTableEntry *entry);
//static void              _JKDictionaryAddObject(JKDictionary *dictionary, NSUInteger keyHash, id key, id object);
//static JKHashTableEntry *_JKDictionaryHashTableEntryForKey(JKDictionary *dictionary, id aKey);
//
//
//static void _JSONDecoderCleanup(JSONDecoder *decoder);
//
//static id _NSStringObjectFromJSONString(NSString *jsonString, JKParseOptionFlags parseOptionFlags, NSError **error, BOOL mutableCollection);
//
//
//static void jk_managedBuffer_release(JKManagedBuffer *managedBuffer);
//static void jk_managedBuffer_setToStackBuffer(JKManagedBuffer *managedBuffer, unsigned char *ptr, size_t length);
//static unsigned char *jk_managedBuffer_resize(JKManagedBuffer *managedBuffer, size_t newSize);
//static void jk_objectStack_release(JKObjectStack *objectStack);
//static void jk_objectStack_setToStackBuffer(JKObjectStack *objectStack, void **objects, void **keys, CFHashCode *cfHashes, size_t count);
//static int  jk_objectStack_resize(JKObjectStack *objectStack, size_t newCount);
//
//static void   jk_error(JKParseState *parseState, NSString *format, ...);
//static int    jk_parse_string(JKParseState *parseState);
//static int    jk_parse_number(JKParseState *parseState);
//static size_t jk_parse_is_newline(JKParseState *parseState, const unsigned char *atCharacterPtr);
//JK_STATIC_INLINE int jk_parse_skip_newline(JKParseState *parseState);
//JK_STATIC_INLINE void jk_parse_skip_whitespace(JKParseState *parseState);
//static int    jk_parse_next_token(JKParseState *parseState);
//static void   jk_error_parse_accept_or3(JKParseState *parseState, int state, NSString *or1String, NSString *or2String, NSString *or3String);
//static void  *jk_create_dictionary(JKParseState *parseState, size_t startingObjectIndex);
//static void  *jk_parse_dictionary(JKParseState *parseState);
//static void  *jk_parse_array(JKParseState *parseState);
//static void  *jk_object_for_token(JKParseState *parseState);
//static void  *jk_cachedObjects(JKParseState *parseState);
//JK_STATIC_INLINE void jk_cache_age(JKParseState *parseState);
//JK_STATIC_INLINE void jk_set_parsed_token(JKParseState *parseState, const unsigned char *ptr, size_t length, JKTokenType type, size_t advanceBy);
//
//
//static void jk_encode_error(JKEncodeState *encodeState, NSString *format, ...);
//static int jk_encode_printf(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object, const char *format, ...);
//static int jk_encode_write(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object, const char *format);
//static int jk_encode_writePrettyPrintWhiteSpace(JKEncodeState *encodeState);
//static int jk_encode_write1slow(JKEncodeState *encodeState, ssize_t depthChange, const char *format);
//static int jk_encode_write1fast(JKEncodeState *encodeState, ssize_t depthChange JK_UNUSED_ARG, const char *format);
//static int jk_encode_writen(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object, const char *format, size_t length);
//JK_STATIC_INLINE JKHash jk_encode_object_hash(void *objectPtr);
//JK_STATIC_INLINE void jk_encode_updateCache(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object);
//static int jk_encode_add_atom_to_buffer(JKEncodeState *encodeState, void *objectPtr);
//
//#define jk_encode_write1(es, dc, f)  (JK_EXPECT_F(_jk_encode_prettyPrint) ? jk_encode_write1slow(es, dc, f) : jk_encode_write1fast(es, dc, f))
//
//
//JK_STATIC_INLINE size_t jk_min(size_t a, size_t b);
//JK_STATIC_INLINE size_t jk_max(size_t a, size_t b);
//JK_STATIC_INLINE JKHash jk_calculateHash(JKHash currentHash, unsigned char c);
//
//// JSONKit v1.4 used both a JKArray : NSArray and JKMutableArray : NSMutableArray, and the same for the dictionary collection type.
//// However, Louis Gerbarg (via cocoa-dev) pointed out that Cocoa / Core Foundation actually implements only a single class that inherits from the 
//// mutable version, and keeps an ivar bit for whether or not that instance is mutable.  This means that the immutable versions of the collection
//// classes receive the mutating methods, but this is handled by having those methods throw an exception when the ivar bit is set to immutable.
//// We adopt the same strategy here.  It's both cleaner and gets rid of the method swizzling hackery used in JSONKit v1.4.
//
//
//// This is a workaround for issue #23 https://github.com/johnezang/JSONKit/pull/23
//// Basically, there seem to be a problem with using +load in static libraries on iOS.  However, __attribute__ ((constructor)) does work correctly.
//// Since we do not require anything "special" that +load provides, and we can accomplish the same thing using __attribute__ ((constructor)), the +load logic was moved here.
//
//static Class                               _JKArrayClass                           = NULL;
//static size_t                              _JKArrayInstanceSize                    = 0UL;
//static Class                               _JKDictionaryClass                      = NULL;
//static size_t                              _JKDictionaryInstanceSize               = 0UL;
//
//// For JSONDecoder...
//static Class                               _jk_NSNumberClass                       = NULL;
//static NSNumberAllocImp                    _jk_NSNumberAllocImp                    = NULL;
//static NSNumberInitWithUnsignedLongLongImp _jk_NSNumberInitWithUnsignedLongLongImp = NULL;
//
//extern void jk_collectionClassLoadTimeInitialization(void) __attribute__ ((constructor));
//
//void jk_collectionClassLoadTimeInitialization(void) {
//  NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init]; // Though technically not required, the run time environment at load time initialization may be less than ideal.
//  
//  _JKArrayClass             = objc_getClass("JKArray");
//  _JKArrayInstanceSize      = jk_max(16UL, class_getInstanceSize(_JKArrayClass));
//  
//  _JKDictionaryClass        = objc_getClass("JKDictionary");
//  _JKDictionaryInstanceSize = jk_max(16UL, class_getInstanceSize(_JKDictionaryClass));
//  
//  // For JSONDecoder...
//  _jk_NSNumberClass = [NSNumber class];
//  _jk_NSNumberAllocImp = (NSNumberAllocImp)[NSNumber methodForSelector:@selector(alloc)];
//  
//  // Hacktacular.  Need to do it this way due to the nature of class clusters.
//  id temp_NSNumber = [NSNumber alloc];
//  _jk_NSNumberInitWithUnsignedLongLongImp = (NSNumberInitWithUnsignedLongLongImp)[temp_NSNumber methodForSelector:@selector(initWithUnsignedLongLong:)];
////  [[temp_NSNumber init] release];
//  temp_NSNumber = NULL;
//  
////  [pool release]; pool = NULL;
//}
//
//
//#pragma mark -
//@interface JKArray : NSMutableArray <NSCopying, NSMutableCopying, NSFastEnumeration> {
////  id         *objects;
//  NSUInteger  count, capacity, mutations;
//}
//@end
//
//@implementation JKArray
//
//+ (id)allocWithZone:(NSZone *)zone
//{
//#pragma unused(zone)
//  [NSException raise:NSInvalidArgumentException format:@"*** - [%@ %@]: The %@ class is private to JSONKit and should not be used in this fashion.", NSStringFromClass([self class]), NSStringFromSelector(_cmd), NSStringFromClass([self class])];
//  return(NULL);
//}
//
//static JKArray *_JKArrayCreate(id *objects, NSUInteger count, BOOL mutableCollection) {
//  NSCParameterAssert((objects != NULL) && (_JKArrayClass != NULL) && (_JKArrayInstanceSize > 0UL));
//  JKArray *array = NULL;
//  if(JK_EXPECT_T((array = (JKArray *)calloc(1UL, _JKArrayInstanceSize)) != NULL)) { // Directly allocate the JKArray instance via calloc.
//    array->isa      = _JKArrayClass;
//    if((array = [array init]) == NULL) { return(NULL); }
//    array->capacity = count;
//    array->count    = count;
//    if(JK_EXPECT_F((array->objects = (id *)malloc(sizeof(id) * array->capacity)) == NULL)) { [array autorelease]; return(NULL); }
//    memcpy(array->objects, objects, array->capacity * sizeof(id));
//    array->mutations = (mutableCollection == NO) ? 0UL : 1UL;
//  }
//  return(array);
//}
//
//// Note: The caller is responsible for -retaining the object that is to be added.
//static void _JKArrayInsertObjectAtIndex(JKArray *array, id newObject, NSUInteger objectIndex) {
//  NSCParameterAssert((array != NULL) && (array->objects != NULL) && (array->count <= array->capacity) && (objectIndex <= array->count) && (newObject != NULL));
//  if(!((array != NULL) && (array->objects != NULL) && (objectIndex <= array->count) && (newObject != NULL))) { [newObject autorelease]; return; }
//  if((array->count + 1UL) >= array->capacity) {
//    id *newObjects = NULL;
//    if((newObjects = (id *)realloc(array->objects, sizeof(id) * (array->capacity + 16UL))) == NULL) { [NSException raise:NSMallocException format:@"Unable to resize objects array."]; }
//    array->objects = newObjects;
//    array->capacity += 16UL;
//    memset(&array->objects[array->count], 0, sizeof(id) * (array->capacity - array->count));
//  }
//  array->count++;
//  if((objectIndex + 1UL) < array->count) { memmove(&array->objects[objectIndex + 1UL], &array->objects[objectIndex], sizeof(id) * ((array->count - 1UL) - objectIndex)); array->objects[objectIndex] = NULL; }
//  array->objects[objectIndex] = newObject;
//}
//
//// Note: The caller is responsible for -retaining the object that is to be added.
//static void _JKArrayReplaceObjectAtIndexWithObject(JKArray *array, NSUInteger objectIndex, id newObject) {
//  NSCParameterAssert((array != NULL) && (array->objects != NULL) && (array->count <= array->capacity) && (objectIndex < array->count) && (array->objects[objectIndex] != NULL) && (newObject != NULL));
//  if(!((array != NULL) && (array->objects != NULL) && (objectIndex < array->count) && (array->objects[objectIndex] != NULL) && (newObject != NULL))) { [newObject autorelease]; return; }
//  CFRelease(array->objects[objectIndex]);
//  array->objects[objectIndex] = NULL;
//  array->objects[objectIndex] = newObject;
//}
//
//static void _JKArrayRemoveObjectAtIndex(JKArray *array, NSUInteger objectIndex) {
//  NSCParameterAssert((array != NULL) && (array->objects != NULL) && (array->count > 0UL) && (array->count <= array->capacity) && (objectIndex < array->count) && (array->objects[objectIndex] != NULL));
//  if(!((array != NULL) && (array->objects != NULL) && (array->count > 0UL) && (array->count <= array->capacity) && (objectIndex < array->count) && (array->objects[objectIndex] != NULL))) { return; }
//  CFRelease(array->objects[objectIndex]);
//  array->objects[objectIndex] = NULL;
//  if((objectIndex + 1UL) < array->count) { memmove(&array->objects[objectIndex], &array->objects[objectIndex + 1UL], sizeof(id) * ((array->count - 1UL) - objectIndex)); array->objects[array->count - 1UL] = NULL; }
//  array->count--;
//}
//
//- (void)dealloc
//{
//  if(JK_EXPECT_T(objects != NULL)) {
//    NSUInteger atObject = 0UL;
//    for(atObject = 0UL; atObject < count; atObject++) { if(JK_EXPECT_T(objects[atObject] != NULL)) { CFRelease(objects[atObject]); objects[atObject] = NULL; } }
//    free(objects); objects = NULL;
//  }
//  
////  [super dealloc];
//}
//
//- (NSUInteger)count
//{
//  NSParameterAssert((objects != NULL) && (count <= capacity));
//  return(count);
//}
//
//- (void)getObjects:(id *)objectsPtr range:(NSRange)range
//{
//  NSParameterAssert((objects != NULL) && (count <= capacity));
//  if((objectsPtr     == NULL)  && (NSMaxRange(range) > 0UL))   { [NSException raise:NSRangeException format:@"*** -[%@ %@]: pointer to objects array is NULL but range length is %lu", NSStringFromClass([self class]), NSStringFromSelector(_cmd), (unsigned long)NSMaxRange(range)];        }
//  if((range.location >  count) || (NSMaxRange(range) > count)) { [NSException raise:NSRangeException format:@"*** -[%@ %@]: index (%lu) beyond bounds (%lu)",                          NSStringFromClass([self class]), NSStringFromSelector(_cmd), (unsigned long)NSMaxRange(range), (unsigned long)count]; }
//#ifndef __clang_analyzer__
//  memcpy(objectsPtr, objects + range.location, range.length * sizeof(id));
//#endif
//}
//
//- (id)objectAtIndex:(NSUInteger)objectIndex
//{
//  if(objectIndex >= count) { [NSException raise:NSRangeException format:@"*** -[%@ %@]: index (%lu) beyond bounds (%lu)", NSStringFromClass([self class]), NSStringFromSelector(_cmd), (unsigned long)objectIndex, (unsigned long)count]; }
//  NSParameterAssert((objects != NULL) && (count <= capacity) && (objects[objectIndex] != NULL));
//  return(objects[objectIndex]);
//}
//
//- (NSUInteger)countByEnumeratingWithState:(NSFastEnumerationState *)state objects:(id *)stackbuf count:(NSUInteger)len
//{
//  NSParameterAssert((state != NULL) && (stackbuf != NULL) && (len > 0UL) && (objects != NULL) && (count <= capacity));
////  if(JK_EXPECT_F(state->state == 0UL))   { state->mutationsPtr = (unsigned long *)&mutations; state->itemsPtr = stackbuf; }
//  if(JK_EXPECT_F(state->state >= count)) { return(0UL); }
//  
//  NSUInteger enumeratedCount  = 0UL;
//  while(JK_EXPECT_T(enumeratedCount < len) && JK_EXPECT_T(state->state < count)) { NSParameterAssert(objects[state->state] != NULL); stackbuf[enumeratedCount++] = objects[state->state++]; }
//  
//  return(enumeratedCount);
//}
//
//- (void)insertObject:(id)anObject atIndex:(NSUInteger)objectIndex
//{
//  if(mutations   == 0UL)   { [NSException raise:NSInternalInconsistencyException format:@"*** -[%@ %@]: mutating method sent to immutable object", NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  if(anObject    == NULL)  { [NSException raise:NSInvalidArgumentException       format:@"*** -[%@ %@]: attempt to insert nil",                    NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  if(objectIndex >  count) { [NSException raise:NSRangeException                 format:@"*** -[%@ %@]: index (%lu) beyond bounds (%lu)",          NSStringFromClass([self class]), NSStringFromSelector(_cmd), (unsigned long)objectIndex, (unsigned long)(count + 1UL)]; }
//#ifdef __clang_analyzer__
//  [anObject retain]; // Stupid clang analyzer...  Issue #19.
//#else
////  anObject = [anObject retain];
//#endif
//  _JKArrayInsertObjectAtIndex(self, anObject, objectIndex);
//  mutations = (mutations == NSUIntegerMax) ? 1UL : mutations + 1UL;
//}
//
//- (void)removeObjectAtIndex:(NSUInteger)objectIndex
//{
//  if(mutations   == 0UL)   { [NSException raise:NSInternalInconsistencyException format:@"*** -[%@ %@]: mutating method sent to immutable object", NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  if(objectIndex >= count) { [NSException raise:NSRangeException                 format:@"*** -[%@ %@]: index (%lu) beyond bounds (%lu)",          NSStringFromClass([self class]), NSStringFromSelector(_cmd), (unsigned long)objectIndex, (unsigned long)count]; }
//  _JKArrayRemoveObjectAtIndex(self, objectIndex);
//  mutations = (mutations == NSUIntegerMax) ? 1UL : mutations + 1UL;
//}
//
//- (void)replaceObjectAtIndex:(NSUInteger)objectIndex withObject:(id)anObject
//{
//  if(mutations   == 0UL)   { [NSException raise:NSInternalInconsistencyException format:@"*** -[%@ %@]: mutating method sent to immutable object", NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  if(anObject    == NULL)  { [NSException raise:NSInvalidArgumentException       format:@"*** -[%@ %@]: attempt to insert nil",                    NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  if(objectIndex >= count) { [NSException raise:NSRangeException                 format:@"*** -[%@ %@]: index (%lu) beyond bounds (%lu)",          NSStringFromClass([self class]), NSStringFromSelector(_cmd), (unsigned long)objectIndex, (unsigned long)count]; }
//#ifdef __clang_analyzer__
//  [anObject retain]; // Stupid clang analyzer...  Issue #19.
//#else
//  anObject = [anObject retain];
//#endif
//  _JKArrayReplaceObjectAtIndexWithObject(self, objectIndex, anObject);
//  mutations = (mutations == NSUIntegerMax) ? 1UL : mutations + 1UL;
//}
//
//- (id)copyWithZone:(NSZone *)zone
//{
//  NSParameterAssert((objects != NULL) && (count <= capacity));
//  return((mutations == 0UL) ? [self retain] : [(NSArray *)[NSArray allocWithZone:zone] initWithObjects:objects count:count]);
//}
//
//- (id)mutableCopyWithZone:(NSZone *)zone
//{
//  NSParameterAssert((objects != NULL) && (count <= capacity));
//  return([(NSMutableArray *)[NSMutableArray allocWithZone:zone] initWithObjects:objects count:count]);
//}
//
//@end
//
//
//#pragma mark -
//@interface JKDictionaryEnumerator : NSEnumerator {
//  id         collection;
//  NSUInteger nextObject;
//}
//
//- (id)initWithJKDictionary:(JKDictionary *)initDictionary;
//- (NSArray *)allObjects;
//- (id)nextObject;
//
//@end
//
//@implementation JKDictionaryEnumerator
//
//- (id)initWithJKDictionary:(JKDictionary *)initDictionary
//{
//  NSParameterAssert(initDictionary != NULL);
//  if((self = [super init]) == NULL) { return(NULL); }
//  if((collection = (id)CFRetain(initDictionary)) == NULL) { [self autorelease]; return(NULL); }
//  return(self);
//}
//
//- (void)dealloc
//{
//  if(collection != NULL) { CFRelease(collection); collection = NULL; }
//  [super dealloc];
//}
//
//- (NSArray *)allObjects
//{
//  NSParameterAssert(collection != NULL);
//  NSUInteger count = [(NSDictionary *)collection count], atObject = 0UL;
//  id         objects[count];
//
//  while((objects[atObject] = [self nextObject]) != NULL) { NSParameterAssert(atObject < count); atObject++; }
//
//  return([NSArray arrayWithObjects:objects count:atObject]);
//}
//
//- (id)nextObject
//{
//  NSParameterAssert((collection != NULL) && (_JKDictionaryHashEntry(collection) != NULL));
//  JKHashTableEntry *entry        = _JKDictionaryHashEntry(collection);
//  NSUInteger        capacity     = _JKDictionaryCapacity(collection);
//  id                returnObject = NULL;
//
//  if(entry != NULL) { while((nextObject < capacity) && ((returnObject = entry[nextObject++].key) == NULL)) { /* ... */ } }
//  
//  return(returnObject);
//}
//
//@end
//
//#pragma mark -
//@interface JKDictionary : NSMutableDictionary <NSCopying, NSMutableCopying, NSFastEnumeration> {
//  NSUInteger count, capacity, mutations;
//  JKHashTableEntry *entry;
//}
//@end
//
//@implementation JKDictionary
//
//+ (id)allocWithZone:(NSZone *)zone
//{
//#pragma unused(zone)
//  [NSException raise:NSInvalidArgumentException format:@"*** - [%@ %@]: The %@ class is private to JSONKit and should not be used in this fashion.", NSStringFromClass([self class]), NSStringFromSelector(_cmd), NSStringFromClass([self class])];
//  return(NULL);
//}
//
//// These values are taken from Core Foundation CF-550 CFBasicHash.m.  As a bonus, they align very well with our JKHashTableEntry struct too.
//static const NSUInteger jk_dictionaryCapacities[] = {
//  0UL, 3UL, 7UL, 13UL, 23UL, 41UL, 71UL, 127UL, 191UL, 251UL, 383UL, 631UL, 1087UL, 1723UL,
//  2803UL, 4523UL, 7351UL, 11959UL, 19447UL, 31231UL, 50683UL, 81919UL, 132607UL,
//  214519UL, 346607UL, 561109UL, 907759UL, 1468927UL, 2376191UL, 3845119UL,
//  6221311UL, 10066421UL, 16287743UL, 26354171UL, 42641881UL, 68996069UL,
//  111638519UL, 180634607UL, 292272623UL, 472907251UL
//};
//
//static NSUInteger _JKDictionaryCapacityForCount(NSUInteger count) {
//  NSUInteger bottom = 0UL, top = sizeof(jk_dictionaryCapacities) / sizeof(NSUInteger), mid = 0UL, tableSize = (NSUInteger)lround(floor(((double)count) * 1.33));
//  while(top > bottom) { mid = (top + bottom) / 2UL; if(jk_dictionaryCapacities[mid] < tableSize) { bottom = mid + 1UL; } else { top = mid; } }
//  return(jk_dictionaryCapacities[bottom]);
//}
//
//static void _JKDictionaryResizeIfNeccessary(JKDictionary *dictionary) {
//  NSCParameterAssert((dictionary != NULL) && (dictionary->entry != NULL) && (dictionary->count <= dictionary->capacity));
//
//  NSUInteger capacityForCount = 0UL;
//  if(dictionary->capacity < (capacityForCount = _JKDictionaryCapacityForCount(dictionary->count + 1UL))) { // resize
//    NSUInteger        oldCapacity = dictionary->capacity;
//#ifndef NS_BLOCK_ASSERTIONS
//    NSUInteger oldCount = dictionary->count;
//#endif
//    JKHashTableEntry *oldEntry    = dictionary->entry;
//    if(JK_EXPECT_F((dictionary->entry = (JKHashTableEntry *)calloc(1UL, sizeof(JKHashTableEntry) * capacityForCount)) == NULL)) { [NSException raise:NSMallocException format:@"Unable to allocate memory for hash table."]; }
//    dictionary->capacity = capacityForCount;
//    dictionary->count    = 0UL;
//    
//    NSUInteger idx = 0UL;
//    for(idx = 0UL; idx < oldCapacity; idx++) { if(oldEntry[idx].key != NULL) { _JKDictionaryAddObject(dictionary, oldEntry[idx].keyHash, oldEntry[idx].key, oldEntry[idx].object); oldEntry[idx].keyHash = 0UL; oldEntry[idx].key = NULL; oldEntry[idx].object = NULL; } }
//    NSCParameterAssert((oldCount == dictionary->count));
//    free(oldEntry); oldEntry = NULL;
//  }
//}
//
//static JKDictionary *_JKDictionaryCreate(id *keys, NSUInteger *keyHashes, id *objects, NSUInteger count, BOOL mutableCollection) {
//  NSCParameterAssert((keys != NULL) && (keyHashes != NULL) && (objects != NULL) && (_JKDictionaryClass != NULL) && (_JKDictionaryInstanceSize > 0UL));
//  JKDictionary *dictionary = NULL;
//  if(JK_EXPECT_T((dictionary = (JKDictionary *)calloc(1UL, _JKDictionaryInstanceSize)) != NULL)) { // Directly allocate the JKDictionary instance via calloc.
//    dictionary->isa      = _JKDictionaryClass;
//    if((dictionary = [dictionary init]) == NULL) { return(NULL); }
//    dictionary->capacity = _JKDictionaryCapacityForCount(count);
//    dictionary->count    = 0UL;
//    
//    if(JK_EXPECT_F((dictionary->entry = (JKHashTableEntry *)calloc(1UL, sizeof(JKHashTableEntry) * dictionary->capacity)) == NULL)) { [dictionary autorelease]; return(NULL); }
//
//    NSUInteger idx = 0UL;
//    for(idx = 0UL; idx < count; idx++) { _JKDictionaryAddObject(dictionary, keyHashes[idx], keys[idx], objects[idx]); }
//
//    dictionary->mutations = (mutableCollection == NO) ? 0UL : 1UL;
//  }
//  return(dictionary);
//}
//
//- (void)dealloc
//{
//  if(JK_EXPECT_T(entry != NULL)) {
//    NSUInteger atEntry = 0UL;
//    for(atEntry = 0UL; atEntry < capacity; atEntry++) {
//      if(JK_EXPECT_T(entry[atEntry].key    != NULL)) { CFRelease(entry[atEntry].key);    entry[atEntry].key    = NULL; }
//      if(JK_EXPECT_T(entry[atEntry].object != NULL)) { CFRelease(entry[atEntry].object); entry[atEntry].object = NULL; }
//    }
//  
//    free(entry); entry = NULL;
//  }
//
//  [super dealloc];
//}
//
//static JKHashTableEntry *_JKDictionaryHashEntry(JKDictionary *dictionary) {
//  NSCParameterAssert(dictionary != NULL);
//  return(dictionary->entry);
//}
//
//static NSUInteger _JKDictionaryCapacity(JKDictionary *dictionary) {
//  NSCParameterAssert(dictionary != NULL);
//  return(dictionary->capacity);
//}
//
//static void _JKDictionaryRemoveObjectWithEntry(JKDictionary *dictionary, JKHashTableEntry *entry) {
//  NSCParameterAssert((dictionary != NULL) && (entry != NULL) && (entry->key != NULL) && (entry->object != NULL) && (dictionary->count > 0UL) && (dictionary->count <= dictionary->capacity));
//  CFRelease(entry->key);    entry->key    = NULL;
//  CFRelease(entry->object); entry->object = NULL;
//  entry->keyHash = 0UL;
//  dictionary->count--;
//  // In order for certain invariants that are used to speed up the search for a particular key, we need to "re-add" all the entries in the hash table following this entry until we hit a NULL entry.
//  NSUInteger removeIdx = entry - dictionary->entry, idx = 0UL;
//  NSCParameterAssert((removeIdx < dictionary->capacity));
//  for(idx = 0UL; idx < dictionary->capacity; idx++) {
//    NSUInteger entryIdx = (removeIdx + idx + 1UL) % dictionary->capacity;
//    JKHashTableEntry *atEntry = &dictionary->entry[entryIdx];
//    if(atEntry->key == NULL) { break; }
//    NSUInteger keyHash = atEntry->keyHash;
//    id key = atEntry->key, object = atEntry->object;
//    NSCParameterAssert(object != NULL);
//    atEntry->keyHash = 0UL;
//    atEntry->key     = NULL;
//    atEntry->object  = NULL;
//    NSUInteger addKeyEntry = keyHash % dictionary->capacity, addIdx = 0UL;
//    for(addIdx = 0UL; addIdx < dictionary->capacity; addIdx++) {
//      JKHashTableEntry *atAddEntry = &dictionary->entry[((addKeyEntry + addIdx) % dictionary->capacity)];
//      if(JK_EXPECT_T(atAddEntry->key == NULL)) { NSCParameterAssert((atAddEntry->keyHash == 0UL) && (atAddEntry->object == NULL)); atAddEntry->key = key; atAddEntry->object = object; atAddEntry->keyHash = keyHash; break; }
//    }
//  }
//}
//
//static void _JKDictionaryAddObject(JKDictionary *dictionary, NSUInteger keyHash, id key, id object) {
//  NSCParameterAssert((dictionary != NULL) && (key != NULL) && (object != NULL) && (dictionary->count < dictionary->capacity) && (dictionary->entry != NULL));
//  NSUInteger keyEntry = keyHash % dictionary->capacity, idx = 0UL;
//  for(idx = 0UL; idx < dictionary->capacity; idx++) {
//    NSUInteger entryIdx = (keyEntry + idx) % dictionary->capacity;
//    JKHashTableEntry *atEntry = &dictionary->entry[entryIdx];
//    if(JK_EXPECT_F(atEntry->keyHash == keyHash) && JK_EXPECT_T(atEntry->key != NULL) && (JK_EXPECT_F(key == atEntry->key) || JK_EXPECT_F(CFEqual(atEntry->key, key)))) { _JKDictionaryRemoveObjectWithEntry(dictionary, atEntry); }
//    if(JK_EXPECT_T(atEntry->key == NULL)) { NSCParameterAssert((atEntry->keyHash == 0UL) && (atEntry->object == NULL)); atEntry->key = key; atEntry->object = object; atEntry->keyHash = keyHash; dictionary->count++; return; }
//  }
//
//  // We should never get here.  If we do, we -release the key / object because it's our responsibility.
//  CFRelease(key);
//  CFRelease(object);
//}
//
//- (NSUInteger)count
//{
//  return(count);
//}
//
//static JKHashTableEntry *_JKDictionaryHashTableEntryForKey(JKDictionary *dictionary, id aKey) {
//  NSCParameterAssert((dictionary != NULL) && (dictionary->entry != NULL) && (dictionary->count <= dictionary->capacity));
//  if((aKey == NULL) || (dictionary->capacity == 0UL)) { return(NULL); }
//  NSUInteger        keyHash = CFHash(aKey), keyEntry = (keyHash % dictionary->capacity), idx = 0UL;
//  JKHashTableEntry *atEntry = NULL;
//  for(idx = 0UL; idx < dictionary->capacity; idx++) {
//    atEntry = &dictionary->entry[(keyEntry + idx) % dictionary->capacity];
//    if(JK_EXPECT_T(atEntry->keyHash == keyHash) && JK_EXPECT_T(atEntry->key != NULL) && ((atEntry->key == aKey) || CFEqual(atEntry->key, aKey))) { NSCParameterAssert(atEntry->object != NULL); return(atEntry); break; }
//    if(JK_EXPECT_F(atEntry->key == NULL)) { NSCParameterAssert(atEntry->object == NULL); return(NULL); break; } // If the key was in the table, we would have found it by now.
//  }
//  return(NULL);
//}
//
//- (id)objectForKey:(id)aKey
//{
//  NSParameterAssert((entry != NULL) && (count <= capacity));
//  JKHashTableEntry *entryForKey = _JKDictionaryHashTableEntryForKey(self, aKey);
//  return((entryForKey != NULL) ? entryForKey->object : NULL);
//}
//
//- (void)getObjects:(id *)objects andKeys:(id *)keys
//{
//  NSParameterAssert((entry != NULL) && (count <= capacity));
//  NSUInteger atEntry = 0UL; NSUInteger arrayIdx = 0UL;
//  for(atEntry = 0UL; atEntry < capacity; atEntry++) {
//    if(JK_EXPECT_T(entry[atEntry].key != NULL)) {
//      NSCParameterAssert((entry[atEntry].object != NULL) && (arrayIdx < count));
//      if(JK_EXPECT_T(keys    != NULL)) { keys[arrayIdx]    = entry[atEntry].key;    }
//      if(JK_EXPECT_T(objects != NULL)) { objects[arrayIdx] = entry[atEntry].object; }
//      arrayIdx++;
//    }
//  }
//}
//
//- (NSUInteger)countByEnumeratingWithState:(NSFastEnumerationState *)state objects:(id *)stackbuf count:(NSUInteger)len
//{
//  NSParameterAssert((state != NULL) && (stackbuf != NULL) && (len > 0UL) && (entry != NULL) && (count <= capacity));
//  if(JK_EXPECT_F(state->state == 0UL))      { state->mutationsPtr = (unsigned long *)&mutations; state->itemsPtr = stackbuf; }
//  if(JK_EXPECT_F(state->state >= capacity)) { return(0UL); }
//  
//  NSUInteger enumeratedCount  = 0UL;
//  while(JK_EXPECT_T(enumeratedCount < len) && JK_EXPECT_T(state->state < capacity)) { if(JK_EXPECT_T(entry[state->state].key != NULL)) { stackbuf[enumeratedCount++] = entry[state->state].key; } state->state++; }
//    
//  return(enumeratedCount);
//}
//
//- (NSEnumerator *)keyEnumerator
//{
//  return([[[JKDictionaryEnumerator alloc] initWithJKDictionary:self] autorelease]);
//}
//
//- (void)setObject:(id)anObject forKey:(id)aKey
//{
//  if(mutations == 0UL)  { [NSException raise:NSInternalInconsistencyException format:@"*** -[%@ %@]: mutating method sent to immutable object", NSStringFromClass([self class]), NSStringFromSelector(_cmd)];       }
//  if(aKey      == NULL) { [NSException raise:NSInvalidArgumentException       format:@"*** -[%@ %@]: attempt to insert nil key",                NSStringFromClass([self class]), NSStringFromSelector(_cmd)];       }
//  if(anObject  == NULL) { [NSException raise:NSInvalidArgumentException       format:@"*** -[%@ %@]: attempt to insert nil value (key: %@)",    NSStringFromClass([self class]), NSStringFromSelector(_cmd), aKey]; }
//  
//  _JKDictionaryResizeIfNeccessary(self);
//#ifndef __clang_analyzer__
//  aKey     = [aKey     copy];   // Why on earth would clang complain that this -copy "might leak", 
//  anObject = [anObject retain]; // but this -retain doesn't!?
//#endif // __clang_analyzer__
//  _JKDictionaryAddObject(self, CFHash(aKey), aKey, anObject);
//  mutations = (mutations == NSUIntegerMax) ? 1UL : mutations + 1UL;
//}
//
//- (void)removeObjectForKey:(id)aKey
//{
//  if(mutations == 0UL)  { [NSException raise:NSInternalInconsistencyException format:@"*** -[%@ %@]: mutating method sent to immutable object", NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  if(aKey      == NULL) { [NSException raise:NSInvalidArgumentException       format:@"*** -[%@ %@]: attempt to remove nil key",                NSStringFromClass([self class]), NSStringFromSelector(_cmd)]; }
//  JKHashTableEntry *entryForKey = _JKDictionaryHashTableEntryForKey(self, aKey);
//  if(entryForKey != NULL) {
//    _JKDictionaryRemoveObjectWithEntry(self, entryForKey);
//    mutations = (mutations == NSUIntegerMax) ? 1UL : mutations + 1UL;
//  }
//}
//
//- (id)copyWithZone:(NSZone *)zone
//{
//  NSParameterAssert((entry != NULL) && (count <= capacity));
//  return((mutations == 0UL) ? [self retain] : [[NSDictionary allocWithZone:zone] initWithDictionary:self]);
//}
//
//- (id)mutableCopyWithZone:(NSZone *)zone
//{
//  NSParameterAssert((entry != NULL) && (count <= capacity));
//  return([[NSMutableDictionary allocWithZone:zone] initWithDictionary:self]);
//}
//
//@end
//
//
//
//#pragma mark -
//
//JK_STATIC_INLINE size_t jk_min(size_t a, size_t b) { return((a < b) ? a : b); }
//JK_STATIC_INLINE size_t jk_max(size_t a, size_t b) { return((a > b) ? a : b); }
//
//JK_STATIC_INLINE JKHash jk_calculateHash(JKHash currentHash, unsigned char c) { return((((currentHash << 5) + currentHash) + (c - 29)) ^ (currentHash >> 19)); }
//
//
//static void jk_error(JKParseState *parseState, NSString *format, ...) {
//  NSCParameterAssert((parseState != NULL) && (format != NULL));
//
//  va_list varArgsList;
//  va_start(varArgsList, format);
//  NSString *formatString = [[[NSString alloc] initWithFormat:format arguments:varArgsList] autorelease];
//  va_end(varArgsList);
//
//#if 0
//  const unsigned char *lineStart      = parseState->stringBuffer.bytes.ptr + parseState->lineStartIndex;
//  const unsigned char *lineEnd        = lineStart;
//  const unsigned char *atCharacterPtr = NULL;
//
//  for(atCharacterPtr = lineStart; atCharacterPtr < JK_END_STRING_PTR(parseState); atCharacterPtr++) { lineEnd = atCharacterPtr; if(jk_parse_is_newline(parseState, atCharacterPtr)) { break; } }
//
//  NSString *lineString = @"", *carretString = @"";
//  if(lineStart < JK_END_STRING_PTR(parseState)) {
//    lineString   = [[[NSString alloc] initWithBytes:lineStart length:(lineEnd - lineStart) encoding:NSUTF8StringEncoding] autorelease];
//    carretString = [NSString stringWithFormat:@"%*.*s^", (int)(parseState->atIndex - parseState->lineStartIndex), (int)(parseState->atIndex - parseState->lineStartIndex), " "];
//  }
//#endif
//
//  if(parseState->error == NULL) {
//    parseState->error = [NSError errorWithDomain:@"JKErrorDomain" code:-1L userInfo:
//                                   [NSDictionary dictionaryWithObjectsAndKeys:
//                                                                              formatString,                                             NSLocalizedDescriptionKey,
//                                                                              [NSNumber numberWithUnsignedLong:parseState->atIndex],    @"JKAtIndexKey",
//                                                                              [NSNumber numberWithUnsignedLong:parseState->lineNumber], @"JKLineNumberKey",
//                                                 //lineString,   @"JKErrorLine0Key",
//                                                 //carretString, @"JKErrorLine1Key",
//                                                                              NULL]];
//  }
//}
//
//#pragma mark -
//#pragma mark Buffer and Object Stack management functions
//
//static void jk_managedBuffer_release(JKManagedBuffer *managedBuffer) {
//  if((managedBuffer->flags & JKManagedBufferMustFree)) {
//    if(managedBuffer->bytes.ptr != NULL) { free(managedBuffer->bytes.ptr); managedBuffer->bytes.ptr = NULL; }
//    managedBuffer->flags &= ~JKManagedBufferMustFree;
//  }
//
//  managedBuffer->bytes.ptr     = NULL;
//  managedBuffer->bytes.length  = 0UL;
//  managedBuffer->flags        &= ~JKManagedBufferLocationMask;
//}
//
//static void jk_managedBuffer_setToStackBuffer(JKManagedBuffer *managedBuffer, unsigned char *ptr, size_t length) {
//  jk_managedBuffer_release(managedBuffer);
//  managedBuffer->bytes.ptr     = ptr;
//  managedBuffer->bytes.length  = length;
//  managedBuffer->flags         = (managedBuffer->flags & ~JKManagedBufferLocationMask) | JKManagedBufferOnStack;
//}
//
//static unsigned char *jk_managedBuffer_resize(JKManagedBuffer *managedBuffer, size_t newSize) {
//  size_t roundedUpNewSize = newSize;
//
//  if(managedBuffer->roundSizeUpToMultipleOf > 0UL) { roundedUpNewSize = newSize + ((managedBuffer->roundSizeUpToMultipleOf - (newSize % managedBuffer->roundSizeUpToMultipleOf)) % managedBuffer->roundSizeUpToMultipleOf); }
//
//  if((roundedUpNewSize != managedBuffer->bytes.length) && (roundedUpNewSize > managedBuffer->bytes.length)) {
//    if((managedBuffer->flags & JKManagedBufferLocationMask) == JKManagedBufferOnStack) {
//      NSCParameterAssert((managedBuffer->flags & JKManagedBufferMustFree) == 0);
//      unsigned char *newBuffer = NULL, *oldBuffer = managedBuffer->bytes.ptr;
//      
//      if((newBuffer = (unsigned char *)malloc(roundedUpNewSize)) == NULL) { return(NULL); }
//      memcpy(newBuffer, oldBuffer, jk_min(managedBuffer->bytes.length, roundedUpNewSize));
//      managedBuffer->flags        = (managedBuffer->flags & ~JKManagedBufferLocationMask) | (JKManagedBufferOnHeap | JKManagedBufferMustFree);
//      managedBuffer->bytes.ptr    = newBuffer;
//      managedBuffer->bytes.length = roundedUpNewSize;
//    } else {
//      NSCParameterAssert(((managedBuffer->flags & JKManagedBufferMustFree) != 0) && ((managedBuffer->flags & JKManagedBufferLocationMask) == JKManagedBufferOnHeap));
//      if((managedBuffer->bytes.ptr = (unsigned char *)reallocf(managedBuffer->bytes.ptr, roundedUpNewSize)) == NULL) { return(NULL); }
//      managedBuffer->bytes.length = roundedUpNewSize;
//    }
//  }
//
//  return(managedBuffer->bytes.ptr);
//}
//
//
//
//static void jk_objectStack_release(JKObjectStack *objectStack) {
//  NSCParameterAssert(objectStack != NULL);
//
//  NSCParameterAssert(objectStack->index <= objectStack->count);
//  size_t atIndex = 0UL;
//  for(atIndex = 0UL; atIndex < objectStack->index; atIndex++) {
//    if(objectStack->objects[atIndex] != NULL) { CFRelease(objectStack->objects[atIndex]); objectStack->objects[atIndex] = NULL; }
//    if(objectStack->keys[atIndex]    != NULL) { CFRelease(objectStack->keys[atIndex]);    objectStack->keys[atIndex]    = NULL; }
//  }
//  objectStack->index = 0UL;
//
//  if(objectStack->flags & JKObjectStackMustFree) {
//    NSCParameterAssert((objectStack->flags & JKObjectStackLocationMask) == JKObjectStackOnHeap);
//    if(objectStack->objects  != NULL) { free(objectStack->objects);  objectStack->objects  = NULL; }
//    if(objectStack->keys     != NULL) { free(objectStack->keys);     objectStack->keys     = NULL; }
//    if(objectStack->cfHashes != NULL) { free(objectStack->cfHashes); objectStack->cfHashes = NULL; }
//    objectStack->flags &= ~JKObjectStackMustFree;
//  }
//
//  objectStack->objects  = NULL;
//  objectStack->keys     = NULL;
//  objectStack->cfHashes = NULL;
//
//  objectStack->count    = 0UL;
//  objectStack->flags   &= ~JKObjectStackLocationMask;
//}
//
//static void jk_objectStack_setToStackBuffer(JKObjectStack *objectStack, void **objects, void **keys, CFHashCode *cfHashes, size_t count) {
//  NSCParameterAssert((objectStack != NULL) && (objects != NULL) && (keys != NULL) && (cfHashes != NULL) && (count > 0UL));
//  jk_objectStack_release(objectStack);
//  objectStack->objects  = objects;
//  objectStack->keys     = keys;
//  objectStack->cfHashes = cfHashes;
//  objectStack->count    = count;
//  objectStack->flags    = (objectStack->flags & ~JKObjectStackLocationMask) | JKObjectStackOnStack;
//#ifndef NS_BLOCK_ASSERTIONS
//  size_t idx;
//  for(idx = 0UL; idx < objectStack->count; idx++) { objectStack->objects[idx] = NULL; objectStack->keys[idx] = NULL; objectStack->cfHashes[idx] = 0UL; }
//#endif
//}
//
//static int jk_objectStack_resize(JKObjectStack *objectStack, size_t newCount) {
//  size_t roundedUpNewCount = newCount;
//  int    returnCode = 0;
//
//  void       **newObjects  = NULL, **newKeys = NULL;
//  CFHashCode  *newCFHashes = NULL;
//
//  if(objectStack->roundSizeUpToMultipleOf > 0UL) { roundedUpNewCount = newCount + ((objectStack->roundSizeUpToMultipleOf - (newCount % objectStack->roundSizeUpToMultipleOf)) % objectStack->roundSizeUpToMultipleOf); }
//
//  if((roundedUpNewCount != objectStack->count) && (roundedUpNewCount > objectStack->count)) {
//    if((objectStack->flags & JKObjectStackLocationMask) == JKObjectStackOnStack) {
//      NSCParameterAssert((objectStack->flags & JKObjectStackMustFree) == 0);
//
//      if((newObjects  = (void **     )calloc(1UL, roundedUpNewCount * sizeof(void *    ))) == NULL) { returnCode = 1; goto errorExit; }
//      memcpy(newObjects, objectStack->objects,   jk_min(objectStack->count, roundedUpNewCount) * sizeof(void *));
//      if((newKeys     = (void **     )calloc(1UL, roundedUpNewCount * sizeof(void *    ))) == NULL) { returnCode = 1; goto errorExit; }
//      memcpy(newKeys,     objectStack->keys,     jk_min(objectStack->count, roundedUpNewCount) * sizeof(void *));
//
//      if((newCFHashes = (CFHashCode *)calloc(1UL, roundedUpNewCount * sizeof(CFHashCode))) == NULL) { returnCode = 1; goto errorExit; }
//      memcpy(newCFHashes, objectStack->cfHashes, jk_min(objectStack->count, roundedUpNewCount) * sizeof(CFHashCode));
//
//      objectStack->flags    = (objectStack->flags & ~JKObjectStackLocationMask) | (JKObjectStackOnHeap | JKObjectStackMustFree);
//      objectStack->objects  = newObjects;  newObjects  = NULL;
//      objectStack->keys     = newKeys;     newKeys     = NULL;
//      objectStack->cfHashes = newCFHashes; newCFHashes = NULL;
//      objectStack->count    = roundedUpNewCount;
//    } else {
//      NSCParameterAssert(((objectStack->flags & JKObjectStackMustFree) != 0) && ((objectStack->flags & JKObjectStackLocationMask) == JKObjectStackOnHeap));
//      if((newObjects  = (void  **    )realloc(objectStack->objects,  roundedUpNewCount * sizeof(void *    ))) != NULL) { objectStack->objects  = newObjects;  newObjects  = NULL; } else { returnCode = 1; goto errorExit; }
//      if((newKeys     = (void  **    )realloc(objectStack->keys,     roundedUpNewCount * sizeof(void *    ))) != NULL) { objectStack->keys     = newKeys;     newKeys     = NULL; } else { returnCode = 1; goto errorExit; }
//      if((newCFHashes = (CFHashCode *)realloc(objectStack->cfHashes, roundedUpNewCount * sizeof(CFHashCode))) != NULL) { objectStack->cfHashes = newCFHashes; newCFHashes = NULL; } else { returnCode = 1; goto errorExit; }
//
//#ifndef NS_BLOCK_ASSERTIONS
//      size_t idx;
//      for(idx = objectStack->count; idx < roundedUpNewCount; idx++) { objectStack->objects[idx] = NULL; objectStack->keys[idx] = NULL; objectStack->cfHashes[idx] = 0UL; }
//#endif
//      objectStack->count = roundedUpNewCount;
//    }
//  }
//
// errorExit:
//  if(newObjects  != NULL) { free(newObjects);  newObjects  = NULL; }
//  if(newKeys     != NULL) { free(newKeys);     newKeys     = NULL; }
//  if(newCFHashes != NULL) { free(newCFHashes); newCFHashes = NULL; }
//
//  return(returnCode);
//}
//
//////////////
//#pragma mark -
//#pragma mark Unicode related functions
//
//JK_STATIC_INLINE ConversionResult isValidCodePoint(UTF32 *u32CodePoint) {
//  ConversionResult result = conversionOK;
//  UTF32            ch     = *u32CodePoint;
//
//  if(JK_EXPECT_F(ch >= UNI_SUR_HIGH_START) && (JK_EXPECT_T(ch <= UNI_SUR_LOW_END)))                                                        { result = sourceIllegal; ch = UNI_REPLACEMENT_CHAR; goto finished; }
//  if(JK_EXPECT_F(ch >= 0xFDD0U) && (JK_EXPECT_F(ch <= 0xFDEFU) || JK_EXPECT_F((ch & 0xFFFEU) == 0xFFFEU)) && JK_EXPECT_T(ch <= 0x10FFFFU)) { result = sourceIllegal; ch = UNI_REPLACEMENT_CHAR; goto finished; }
//  if(JK_EXPECT_F(ch == 0U))                                                                                                                { result = sourceIllegal; ch = UNI_REPLACEMENT_CHAR; goto finished; }
//
// finished:
//  *u32CodePoint = ch;
//  return(result);
//}
//
//
//static int isLegalUTF8(const UTF8 *source, size_t length) {
//  const UTF8 *srcptr = source + length;
//  UTF8 a;
//
//  switch(length) {
//    default: return(0); // Everything else falls through when "true"...
//    case 4: if(JK_EXPECT_F(((a = (*--srcptr)) < 0x80) || (a > 0xBF))) { return(0); }
//    case 3: if(JK_EXPECT_F(((a = (*--srcptr)) < 0x80) || (a > 0xBF))) { return(0); }
//    case 2: if(JK_EXPECT_F( (a = (*--srcptr)) > 0xBF               )) { return(0); }
//      
//      switch(*source) { // no fall-through in this inner switch
//        case 0xE0: if(JK_EXPECT_F(a < 0xA0)) { return(0); } break;
//        case 0xED: if(JK_EXPECT_F(a > 0x9F)) { return(0); } break;
//        case 0xF0: if(JK_EXPECT_F(a < 0x90)) { return(0); } break;
//        case 0xF4: if(JK_EXPECT_F(a > 0x8F)) { return(0); } break;
//        default:   if(JK_EXPECT_F(a < 0x80)) { return(0); }
//      }
//      
//    case 1: if(JK_EXPECT_F((JK_EXPECT_T(*source < 0xC2)) && JK_EXPECT_F(*source >= 0x80))) { return(0); }
//  }
//
//  if(JK_EXPECT_F(*source > 0xF4)) { return(0); }
//
//  return(1);
//}
//
//static ConversionResult ConvertSingleCodePointInUTF8(const UTF8 *sourceStart, const UTF8 *sourceEnd, UTF8 const **nextUTF8, UTF32 *convertedUTF32) {
//  ConversionResult result = conversionOK;
//  const UTF8 *source = sourceStart;
//  UTF32 ch = 0UL;
//
//#if !defined(JK_FAST_TRAILING_BYTES)
//  unsigned short extraBytesToRead = trailingBytesForUTF8[*source];
//#else
//  unsigned short extraBytesToRead = __builtin_clz(((*source)^0xff) << 25);
//#endif
//
//  if(JK_EXPECT_F((source + extraBytesToRead + 1) > sourceEnd) || JK_EXPECT_F(!isLegalUTF8(source, extraBytesToRead + 1))) {
//    source++;
//    while((source < sourceEnd) && (((*source) & 0xc0) == 0x80) && ((source - sourceStart) < (extraBytesToRead + 1))) { source++; } 
//    NSCParameterAssert(source <= sourceEnd);
//    result = ((source < sourceEnd) && (((*source) & 0xc0) != 0x80)) ? sourceIllegal : ((sourceStart + extraBytesToRead + 1) > sourceEnd) ? sourceExhausted : sourceIllegal;
//    ch = UNI_REPLACEMENT_CHAR;
//    goto finished;
//  }
//
//  switch(extraBytesToRead) { // The cases all fall through.
//    case 5: ch += *source++; ch <<= 6;
//    case 4: ch += *source++; ch <<= 6;
//    case 3: ch += *source++; ch <<= 6;
//    case 2: ch += *source++; ch <<= 6;
//    case 1: ch += *source++; ch <<= 6;
//    case 0: ch += *source++;
//  }
//  ch -= offsetsFromUTF8[extraBytesToRead];
//
//  result = isValidCodePoint(&ch);
//  
// finished:
//  *nextUTF8       = source;
//  *convertedUTF32 = ch;
//  
//  return(result);
//}
//
//
//static ConversionResult ConvertUTF32toUTF8 (UTF32 u32CodePoint, UTF8 **targetStart, UTF8 *targetEnd) {
//  const UTF32       byteMask     = 0xBF, byteMark = 0x80;
//  ConversionResult  result       = conversionOK;
//  UTF8             *target       = *targetStart;
//  UTF32             ch           = u32CodePoint;
//  unsigned short    bytesToWrite = 0;
//
//  result = isValidCodePoint(&ch);
//
//  // Figure out how many bytes the result will require. Turn any illegally large UTF32 things (> Plane 17) into replacement chars.
//       if(ch < (UTF32)0x80)          { bytesToWrite = 1; }
//  else if(ch < (UTF32)0x800)         { bytesToWrite = 2; }
//  else if(ch < (UTF32)0x10000)       { bytesToWrite = 3; }
//  else if(ch <= UNI_MAX_LEGAL_UTF32) { bytesToWrite = 4; }
//  else {                               bytesToWrite = 3; ch = UNI_REPLACEMENT_CHAR; result = sourceIllegal; }
//        
//  target += bytesToWrite;
//  if (target > targetEnd) { target -= bytesToWrite; result = targetExhausted; goto finished; }
//
//  switch (bytesToWrite) { // note: everything falls through.
//    case 4: *--target = (UTF8)((ch | byteMark) & byteMask); ch >>= 6;
//    case 3: *--target = (UTF8)((ch | byteMark) & byteMask); ch >>= 6;
//    case 2: *--target = (UTF8)((ch | byteMark) & byteMask); ch >>= 6;
//    case 1: *--target = (UTF8) (ch | firstByteMark[bytesToWrite]);
//  }
//
//  target += bytesToWrite;
//
// finished:
//  *targetStart = target;
//  return(result);
//}
//
//JK_STATIC_INLINE int jk_string_add_unicodeCodePoint(JKParseState *parseState, uint32_t unicodeCodePoint, size_t *tokenBufferIdx, JKHash *stringHash) {
//  UTF8             *u8s = &parseState->token.tokenBuffer.bytes.ptr[*tokenBufferIdx];
//  ConversionResult  result;
//
//  if((result = ConvertUTF32toUTF8(unicodeCodePoint, &u8s, (parseState->token.tokenBuffer.bytes.ptr + parseState->token.tokenBuffer.bytes.length))) != conversionOK) { if(result == targetExhausted) { return(1); } }
//  size_t utf8len = u8s - &parseState->token.tokenBuffer.bytes.ptr[*tokenBufferIdx], nextIdx = (*tokenBufferIdx) + utf8len;
//  
//  while(*tokenBufferIdx < nextIdx) { *stringHash = jk_calculateHash(*stringHash, parseState->token.tokenBuffer.bytes.ptr[(*tokenBufferIdx)++]); }
//
//  return(0);
//}
//
//////////////
//#pragma mark -
//#pragma mark Decoding / parsing / deserializing functions
//
//static int jk_parse_string(JKParseState *parseState) {
//  NSCParameterAssert((parseState != NULL) && (JK_AT_STRING_PTR(parseState) <= JK_END_STRING_PTR(parseState)));
//  const unsigned char *stringStart       = JK_AT_STRING_PTR(parseState) + 1;
//  const unsigned char *endOfBuffer       = JK_END_STRING_PTR(parseState);
//  const unsigned char *atStringCharacter = stringStart;
//  unsigned char       *tokenBuffer       = parseState->token.tokenBuffer.bytes.ptr;
//  size_t               tokenStartIndex   = parseState->atIndex;
//  size_t               tokenBufferIdx    = 0UL;
//
//  int      onlySimpleString        = 1,  stringState     = JSONStringStateStart;
//  uint16_t escapedUnicode1         = 0U, escapedUnicode2 = 0U;
//  uint32_t escapedUnicodeCodePoint = 0U;
//  JKHash   stringHash              = JK_HASH_INIT;
//    
//  while(1) {
//    unsigned long currentChar;
//
//    if(JK_EXPECT_F(atStringCharacter == endOfBuffer)) { /* XXX Add error message */ stringState = JSONStringStateError; goto finishedParsing; }
//    
//    if(JK_EXPECT_F((currentChar = *atStringCharacter++) >= 0x80UL)) {
//      const unsigned char *nextValidCharacter = NULL;
//      UTF32                u32ch              = 0U;
//      ConversionResult     result;
//
//      if(JK_EXPECT_F((result = ConvertSingleCodePointInUTF8(atStringCharacter - 1, endOfBuffer, (UTF8 const **)&nextValidCharacter, &u32ch)) != conversionOK)) { goto switchToSlowPath; }
//      stringHash = jk_calculateHash(stringHash, currentChar);
//      while(atStringCharacter < nextValidCharacter) { NSCParameterAssert(JK_AT_STRING_PTR(parseState) <= JK_END_STRING_PTR(parseState)); stringHash = jk_calculateHash(stringHash, *atStringCharacter++); }
//      continue;
//    } else {
//      if(JK_EXPECT_F(currentChar == (unsigned long)'"')) { stringState = JSONStringStateFinished; goto finishedParsing; }
//
//      if(JK_EXPECT_F(currentChar == (unsigned long)'\\')) {
//      switchToSlowPath:
//        onlySimpleString = 0;
//        stringState      = JSONStringStateParsing;
//        tokenBufferIdx   = (atStringCharacter - stringStart) - 1L;
//        if(JK_EXPECT_F((tokenBufferIdx + 16UL) > parseState->token.tokenBuffer.bytes.length)) { if((tokenBuffer = jk_managedBuffer_resize(&parseState->token.tokenBuffer, tokenBufferIdx + 1024UL)) == NULL) { jk_error(parseState, @"Internal error: Unable to resize temporary buffer. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; } }
//        memcpy(tokenBuffer, stringStart, tokenBufferIdx);
//        goto slowMatch;
//      }
//
//      if(JK_EXPECT_F(currentChar < 0x20UL)) { jk_error(parseState, @"Invalid character < 0x20 found in string: 0x%2.2x.", currentChar); stringState = JSONStringStateError; goto finishedParsing; }
//
//      stringHash = jk_calculateHash(stringHash, currentChar);
//    }
//  }
//
// slowMatch:
//
//  for(atStringCharacter = (stringStart + ((atStringCharacter - stringStart) - 1L)); (atStringCharacter < endOfBuffer) && (tokenBufferIdx < parseState->token.tokenBuffer.bytes.length); atStringCharacter++) {
//    if((tokenBufferIdx + 16UL) > parseState->token.tokenBuffer.bytes.length) { if((tokenBuffer = jk_managedBuffer_resize(&parseState->token.tokenBuffer, tokenBufferIdx + 1024UL)) == NULL) { jk_error(parseState, @"Internal error: Unable to resize temporary buffer. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; } }
//
//    NSCParameterAssert(tokenBufferIdx < parseState->token.tokenBuffer.bytes.length);
//
//    unsigned long currentChar = (*atStringCharacter), escapedChar;
//
//    if(JK_EXPECT_T(stringState == JSONStringStateParsing)) {
//      if(JK_EXPECT_T(currentChar >= 0x20UL)) {
//        if(JK_EXPECT_T(currentChar < (unsigned long)0x80)) { // Not a UTF8 sequence
//          if(JK_EXPECT_F(currentChar == (unsigned long)'"'))  { stringState = JSONStringStateFinished; atStringCharacter++; goto finishedParsing; }
//          if(JK_EXPECT_F(currentChar == (unsigned long)'\\')) { stringState = JSONStringStateEscape; continue; }
//          stringHash = jk_calculateHash(stringHash, currentChar);
//          tokenBuffer[tokenBufferIdx++] = currentChar;
//          continue;
//        } else { // UTF8 sequence
//          const unsigned char *nextValidCharacter = NULL;
//          UTF32                u32ch              = 0U;
//          ConversionResult     result;
//          
//          if(JK_EXPECT_F((result = ConvertSingleCodePointInUTF8(atStringCharacter, endOfBuffer, (UTF8 const **)&nextValidCharacter, &u32ch)) != conversionOK)) {
//            if((result == sourceIllegal) && ((parseState->parseOptionFlags & JKParseOptionLooseUnicode) == 0)) { jk_error(parseState, @"Illegal UTF8 sequence found in \"\" string.");              stringState = JSONStringStateError; goto finishedParsing; }
//            if(result == sourceExhausted)                                                                      { jk_error(parseState, @"End of buffer reached while parsing UTF8 in \"\" string."); stringState = JSONStringStateError; goto finishedParsing; }
//            if(jk_string_add_unicodeCodePoint(parseState, u32ch, &tokenBufferIdx, &stringHash))                { jk_error(parseState, @"Internal error: Unable to add UTF8 sequence to internal string buffer. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; }
//            atStringCharacter = nextValidCharacter - 1;
//            continue;
//          } else {
//            while(atStringCharacter < nextValidCharacter) { tokenBuffer[tokenBufferIdx++] = *atStringCharacter; stringHash = jk_calculateHash(stringHash, *atStringCharacter++); }
//            atStringCharacter--;
//            continue;
//          }
//        }
//      } else { // currentChar < 0x20
//        jk_error(parseState, @"Invalid character < 0x20 found in string: 0x%2.2x.", currentChar); stringState = JSONStringStateError; goto finishedParsing;
//      }
//
//    } else { // stringState != JSONStringStateParsing
//      int isSurrogate = 1;
//
//      switch(stringState) {
//        case JSONStringStateEscape:
//          switch(currentChar) {
//            case 'u': escapedUnicode1 = 0U; escapedUnicode2 = 0U; escapedUnicodeCodePoint = 0U; stringState = JSONStringStateEscapedUnicode1; break;
//
//            case 'b':  escapedChar = '\b'; goto parsedEscapedChar;
//            case 'f':  escapedChar = '\f'; goto parsedEscapedChar;
//            case 'n':  escapedChar = '\n'; goto parsedEscapedChar;
//            case 'r':  escapedChar = '\r'; goto parsedEscapedChar;
//            case 't':  escapedChar = '\t'; goto parsedEscapedChar;
//            case '\\': escapedChar = '\\'; goto parsedEscapedChar;
//            case '/':  escapedChar = '/';  goto parsedEscapedChar;
//            case '"':  escapedChar = '"';  goto parsedEscapedChar;
//              
//            parsedEscapedChar:
//              stringState = JSONStringStateParsing;
//              stringHash  = jk_calculateHash(stringHash, escapedChar);
//              tokenBuffer[tokenBufferIdx++] = escapedChar;
//              break;
//              
//            default: jk_error(parseState, @"Invalid escape sequence found in \"\" string."); stringState = JSONStringStateError; goto finishedParsing; break;
//          }
//          break;
//
//        case JSONStringStateEscapedUnicode1:
//        case JSONStringStateEscapedUnicode2:
//        case JSONStringStateEscapedUnicode3:
//        case JSONStringStateEscapedUnicode4:           isSurrogate = 0;
//        case JSONStringStateEscapedUnicodeSurrogate1:
//        case JSONStringStateEscapedUnicodeSurrogate2:
//        case JSONStringStateEscapedUnicodeSurrogate3:
//        case JSONStringStateEscapedUnicodeSurrogate4:
//          {
//            uint16_t hexValue = 0U;
//
//            switch(currentChar) {
//              case '0' ... '9': hexValue =  currentChar - '0';        goto parsedHex;
//              case 'a' ... 'f': hexValue = (currentChar - 'a') + 10U; goto parsedHex;
//              case 'A' ... 'F': hexValue = (currentChar - 'A') + 10U; goto parsedHex;
//                
//              parsedHex:
//              if(!isSurrogate) { escapedUnicode1 = (escapedUnicode1 << 4) | hexValue; } else { escapedUnicode2 = (escapedUnicode2 << 4) | hexValue; }
//                
//              if(stringState == JSONStringStateEscapedUnicode4) {
//                if(((escapedUnicode1 >= 0xD800U) && (escapedUnicode1 < 0xE000U))) {
//                  if((escapedUnicode1 >= 0xD800U) && (escapedUnicode1 < 0xDC00U)) { stringState = JSONStringStateEscapedNeedEscapeForSurrogate; }
//                  else if((escapedUnicode1 >= 0xDC00U) && (escapedUnicode1 < 0xE000U)) { 
//                    if((parseState->parseOptionFlags & JKParseOptionLooseUnicode)) { escapedUnicodeCodePoint = UNI_REPLACEMENT_CHAR; }
//                    else { jk_error(parseState, @"Illegal \\u Unicode escape sequence."); stringState = JSONStringStateError; goto finishedParsing; }
//                  }
//                }
//                else { escapedUnicodeCodePoint = escapedUnicode1; }
//              }
//
//              if(stringState == JSONStringStateEscapedUnicodeSurrogate4) {
//                if((escapedUnicode2 < 0xdc00) || (escapedUnicode2 > 0xdfff)) {
//                  if((parseState->parseOptionFlags & JKParseOptionLooseUnicode)) { escapedUnicodeCodePoint = UNI_REPLACEMENT_CHAR; }
//                  else { jk_error(parseState, @"Illegal \\u Unicode escape sequence."); stringState = JSONStringStateError; goto finishedParsing; }
//                }
//                else { escapedUnicodeCodePoint = ((escapedUnicode1 - 0xd800) * 0x400) + (escapedUnicode2 - 0xdc00) + 0x10000; }
//              }
//                
//              if((stringState == JSONStringStateEscapedUnicode4) || (stringState == JSONStringStateEscapedUnicodeSurrogate4)) { 
//                if((isValidCodePoint(&escapedUnicodeCodePoint) == sourceIllegal) && ((parseState->parseOptionFlags & JKParseOptionLooseUnicode) == 0)) { jk_error(parseState, @"Illegal \\u Unicode escape sequence."); stringState = JSONStringStateError; goto finishedParsing; }
//                stringState = JSONStringStateParsing;
//                if(jk_string_add_unicodeCodePoint(parseState, escapedUnicodeCodePoint, &tokenBufferIdx, &stringHash)) { jk_error(parseState, @"Internal error: Unable to add UTF8 sequence to internal string buffer. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; }
//              }
//              else if((stringState >= JSONStringStateEscapedUnicode1) && (stringState <= JSONStringStateEscapedUnicodeSurrogate4)) { stringState++; }
//              break;
//
//              default: jk_error(parseState, @"Unexpected character found in \\u Unicode escape sequence.  Found '%c', expected [0-9a-fA-F].", currentChar); stringState = JSONStringStateError; goto finishedParsing; break;
//            }
//          }
//          break;
//
//        case JSONStringStateEscapedNeedEscapeForSurrogate:
//          if(currentChar == '\\') { stringState = JSONStringStateEscapedNeedEscapedUForSurrogate; }
//          else { 
//            if((parseState->parseOptionFlags & JKParseOptionLooseUnicode) == 0) { jk_error(parseState, @"Required a second \\u Unicode escape sequence following a surrogate \\u Unicode escape sequence."); stringState = JSONStringStateError; goto finishedParsing; }
//            else { stringState = JSONStringStateParsing; atStringCharacter--;    if(jk_string_add_unicodeCodePoint(parseState, UNI_REPLACEMENT_CHAR, &tokenBufferIdx, &stringHash)) { jk_error(parseState, @"Internal error: Unable to add UTF8 sequence to internal string buffer. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; } }
//          }
//          break;
//
//        case JSONStringStateEscapedNeedEscapedUForSurrogate:
//          if(currentChar == 'u') { stringState = JSONStringStateEscapedUnicodeSurrogate1; }
//          else { 
//            if((parseState->parseOptionFlags & JKParseOptionLooseUnicode) == 0) { jk_error(parseState, @"Required a second \\u Unicode escape sequence following a surrogate \\u Unicode escape sequence."); stringState = JSONStringStateError; goto finishedParsing; }
//            else { stringState = JSONStringStateParsing; atStringCharacter -= 2; if(jk_string_add_unicodeCodePoint(parseState, UNI_REPLACEMENT_CHAR, &tokenBufferIdx, &stringHash)) { jk_error(parseState, @"Internal error: Unable to add UTF8 sequence to internal string buffer. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; } }
//          }
//          break;
//
//        default: jk_error(parseState, @"Internal error: Unknown stringState. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); stringState = JSONStringStateError; goto finishedParsing; break;
//      }
//    }
//  }
//
//finishedParsing:
//
//  if(JK_EXPECT_T(stringState == JSONStringStateFinished)) {
//    NSCParameterAssert((parseState->stringBuffer.bytes.ptr + tokenStartIndex) < atStringCharacter);
//
//    parseState->token.tokenPtrRange.ptr    = parseState->stringBuffer.bytes.ptr + tokenStartIndex;
//    parseState->token.tokenPtrRange.length = (atStringCharacter - parseState->token.tokenPtrRange.ptr);
//
//    if(JK_EXPECT_T(onlySimpleString)) {
//      NSCParameterAssert(((parseState->token.tokenPtrRange.ptr + 1) < endOfBuffer) && (parseState->token.tokenPtrRange.length >= 2UL) && (((parseState->token.tokenPtrRange.ptr + 1) + (parseState->token.tokenPtrRange.length - 2)) < endOfBuffer));
//      parseState->token.value.ptrRange.ptr    = parseState->token.tokenPtrRange.ptr    + 1;
//      parseState->token.value.ptrRange.length = parseState->token.tokenPtrRange.length - 2UL;
//    } else {
//      parseState->token.value.ptrRange.ptr    = parseState->token.tokenBuffer.bytes.ptr;
//      parseState->token.value.ptrRange.length = tokenBufferIdx;
//    }
//    
//    parseState->token.value.hash = stringHash;
//    parseState->token.value.type = JKValueTypeString;
//    parseState->atIndex          = (atStringCharacter - parseState->stringBuffer.bytes.ptr);
//  }
//
//  if(JK_EXPECT_F(stringState != JSONStringStateFinished)) { jk_error(parseState, @"Invalid string."); }
//  return(JK_EXPECT_T(stringState == JSONStringStateFinished) ? 0 : 1);
//}
//
//static int jk_parse_number(JKParseState *parseState) {
//  NSCParameterAssert((parseState != NULL) && (JK_AT_STRING_PTR(parseState) <= JK_END_STRING_PTR(parseState)));
//  const unsigned char *numberStart       = JK_AT_STRING_PTR(parseState);
//  const unsigned char *endOfBuffer       = JK_END_STRING_PTR(parseState);
//  const unsigned char *atNumberCharacter = NULL;
//  int                  numberState       = JSONNumberStateWholeNumberStart, isFloatingPoint = 0, isNegative = 0, backup = 0;
//  size_t               startingIndex     = parseState->atIndex;
//  
//  for(atNumberCharacter = numberStart; (JK_EXPECT_T(atNumberCharacter < endOfBuffer)) && (JK_EXPECT_T(!(JK_EXPECT_F(numberState == JSONNumberStateFinished) || JK_EXPECT_F(numberState == JSONNumberStateError)))); atNumberCharacter++) {
//    unsigned long currentChar = (unsigned long)(*atNumberCharacter), lowerCaseCC = currentChar | 0x20UL;
//    
//    switch(numberState) {
//      case JSONNumberStateWholeNumberStart: if   (currentChar == '-')                                                                              { numberState = JSONNumberStateWholeNumberMinus;      isNegative      = 1; break; }
//      case JSONNumberStateWholeNumberMinus: if   (currentChar == '0')                                                                              { numberState = JSONNumberStateWholeNumberZero;                            break; }
//                                       else if(  (currentChar >= '1') && (currentChar <= '9'))                                                     { numberState = JSONNumberStateWholeNumber;                                break; }
//                                       else                                                     { /* XXX Add error message */                        numberState = JSONNumberStateError;                                      break; }
//      case JSONNumberStateExponentStart:    if(  (currentChar == '+') || (currentChar == '-'))                                                     { numberState = JSONNumberStateExponentPlusMinus;                          break; }
//      case JSONNumberStateFractionalNumberStart:
//      case JSONNumberStateExponentPlusMinus:if(!((currentChar >= '0') && (currentChar <= '9'))) { /* XXX Add error message */                        numberState = JSONNumberStateError;                                      break; }
//                                       else {                                              if(numberState == JSONNumberStateFractionalNumberStart) { numberState = JSONNumberStateFractionalNumber; }
//                                                                                           else                                                    { numberState = JSONNumberStateExponent;         }                         break; }
//      case JSONNumberStateWholeNumberZero:
//      case JSONNumberStateWholeNumber:      if   (currentChar == '.')                                                                              { numberState = JSONNumberStateFractionalNumberStart; isFloatingPoint = 1; break; }
//      case JSONNumberStateFractionalNumber: if   (lowerCaseCC == 'e')                                                                              { numberState = JSONNumberStateExponentStart;         isFloatingPoint = 1; break; }
//      case JSONNumberStateExponent:         if(!((currentChar >= '0') && (currentChar <= '9')) || (numberState == JSONNumberStateWholeNumberZero)) { numberState = JSONNumberStateFinished;              backup          = 1; break; }
//        break;
//      default:                                                                                    /* XXX Add error message */                        numberState = JSONNumberStateError;                                      break;
//    }
//  }
//  
//  parseState->token.tokenPtrRange.ptr    = parseState->stringBuffer.bytes.ptr + startingIndex;
//  parseState->token.tokenPtrRange.length = (atNumberCharacter - parseState->token.tokenPtrRange.ptr) - backup;
//  parseState->atIndex                    = (parseState->token.tokenPtrRange.ptr + parseState->token.tokenPtrRange.length) - parseState->stringBuffer.bytes.ptr;
//
//  if(JK_EXPECT_T(numberState == JSONNumberStateFinished)) {
//    unsigned char  numberTempBuf[parseState->token.tokenPtrRange.length + 4UL];
//    unsigned char *endOfNumber = NULL;
//
//    memcpy(numberTempBuf, parseState->token.tokenPtrRange.ptr, parseState->token.tokenPtrRange.length);
//    numberTempBuf[parseState->token.tokenPtrRange.length] = 0;
//
//    errno = 0;
//    
//    // Treat "-0" as a floating point number, which is capable of representing negative zeros.
//    if(JK_EXPECT_F(parseState->token.tokenPtrRange.length == 2UL) && JK_EXPECT_F(numberTempBuf[1] == '0') && JK_EXPECT_F(isNegative)) { isFloatingPoint = 1; }
//
//    if(isFloatingPoint) {
//      parseState->token.value.number.doubleValue = strtod((const char *)numberTempBuf, (char **)&endOfNumber); // strtod is documented to return U+2261 (identical to) 0.0 on an underflow error (along with setting errno to ERANGE).
//      parseState->token.value.type               = JKValueTypeDouble;
//      parseState->token.value.ptrRange.ptr       = (const unsigned char *)&parseState->token.value.number.doubleValue;
//      parseState->token.value.ptrRange.length    = sizeof(double);
//      parseState->token.value.hash               = (JK_HASH_INIT + parseState->token.value.type);
//    } else {
//      if(isNegative) {
//        parseState->token.value.number.longLongValue = strtoll((const char *)numberTempBuf, (char **)&endOfNumber, 10);
//        parseState->token.value.type                 = JKValueTypeLongLong;
//        parseState->token.value.ptrRange.ptr         = (const unsigned char *)&parseState->token.value.number.longLongValue;
//        parseState->token.value.ptrRange.length      = sizeof(long long);
//        parseState->token.value.hash                 = (JK_HASH_INIT + parseState->token.value.type) + (JKHash)parseState->token.value.number.longLongValue;
//      } else {
//        parseState->token.value.number.unsignedLongLongValue = strtoull((const char *)numberTempBuf, (char **)&endOfNumber, 10);
//        parseState->token.value.type                         = JKValueTypeUnsignedLongLong;
//        parseState->token.value.ptrRange.ptr                 = (const unsigned char *)&parseState->token.value.number.unsignedLongLongValue;
//        parseState->token.value.ptrRange.length              = sizeof(unsigned long long);
//        parseState->token.value.hash                         = (JK_HASH_INIT + parseState->token.value.type) + (JKHash)parseState->token.value.number.unsignedLongLongValue;
//      }
//    }
//
//    if(JK_EXPECT_F(errno != 0)) {
//      numberState = JSONNumberStateError;
//      if(errno == ERANGE) {
//        switch(parseState->token.value.type) {
//          case JKValueTypeDouble:           jk_error(parseState, @"The value '%s' could not be represented as a 'double' due to %s.",           numberTempBuf, (parseState->token.value.number.doubleValue == 0.0) ? "underflow" : "overflow"); break; // see above for == 0.0.
//          case JKValueTypeLongLong:         jk_error(parseState, @"The value '%s' exceeded the minimum value that could be represented: %lld.", numberTempBuf, parseState->token.value.number.longLongValue);                                   break;
//          case JKValueTypeUnsignedLongLong: jk_error(parseState, @"The value '%s' exceeded the maximum value that could be represented: %llu.", numberTempBuf, parseState->token.value.number.unsignedLongLongValue);                           break;
//          default:                          jk_error(parseState, @"Internal error: Unknown token value type. %@ line #%ld",                     [NSString stringWithUTF8String:__FILE__], (long)__LINE__);                                      break;
//        }
//      }
//    }
//    if(JK_EXPECT_F(endOfNumber != &numberTempBuf[parseState->token.tokenPtrRange.length]) && JK_EXPECT_F(numberState != JSONNumberStateError)) { numberState = JSONNumberStateError; jk_error(parseState, @"The conversion function did not consume all of the number tokens characters."); }
//
//    size_t hashIndex = 0UL;
//    for(hashIndex = 0UL; hashIndex < parseState->token.value.ptrRange.length; hashIndex++) { parseState->token.value.hash = jk_calculateHash(parseState->token.value.hash, parseState->token.value.ptrRange.ptr[hashIndex]); }
//  }
//
//  if(JK_EXPECT_F(numberState != JSONNumberStateFinished)) { jk_error(parseState, @"Invalid number."); }
//  return(JK_EXPECT_T((numberState == JSONNumberStateFinished)) ? 0 : 1);
//}
//
//JK_STATIC_INLINE void jk_set_parsed_token(JKParseState *parseState, const unsigned char *ptr, size_t length, JKTokenType type, size_t advanceBy) {
//  parseState->token.tokenPtrRange.ptr     = ptr;
//  parseState->token.tokenPtrRange.length  = length;
//  parseState->token.type                  = type;
//  parseState->atIndex                    += advanceBy;
//}
//
//static size_t jk_parse_is_newline(JKParseState *parseState, const unsigned char *atCharacterPtr) {
//  NSCParameterAssert((parseState != NULL) && (atCharacterPtr != NULL) && (atCharacterPtr >= parseState->stringBuffer.bytes.ptr) && (atCharacterPtr < JK_END_STRING_PTR(parseState)));
//  const unsigned char *endOfStringPtr = JK_END_STRING_PTR(parseState);
//
//  if(JK_EXPECT_F(atCharacterPtr >= endOfStringPtr)) { return(0UL); }
//
//  if(JK_EXPECT_F((*(atCharacterPtr + 0)) == '\n')) { return(1UL); }
//  if(JK_EXPECT_F((*(atCharacterPtr + 0)) == '\r')) { if((JK_EXPECT_T((atCharacterPtr + 1) < endOfStringPtr)) && ((*(atCharacterPtr + 1)) == '\n')) { return(2UL); } return(1UL); }
//  if(parseState->parseOptionFlags & JKParseOptionUnicodeNewlines) {
//    if((JK_EXPECT_F((*(atCharacterPtr + 0)) == 0xc2)) && (((atCharacterPtr + 1) < endOfStringPtr) && ((*(atCharacterPtr + 1)) == 0x85))) { return(2UL); }
//    if((JK_EXPECT_F((*(atCharacterPtr + 0)) == 0xe2)) && (((atCharacterPtr + 2) < endOfStringPtr) && ((*(atCharacterPtr + 1)) == 0x80) && (((*(atCharacterPtr + 2)) == 0xa8) || ((*(atCharacterPtr + 2)) == 0xa9)))) { return(3UL); }
//  }
//
//  return(0UL);
//}
//
//JK_STATIC_INLINE int jk_parse_skip_newline(JKParseState *parseState) {
//  size_t newlineAdvanceAtIndex = 0UL;
//  if(JK_EXPECT_F((newlineAdvanceAtIndex = jk_parse_is_newline(parseState, JK_AT_STRING_PTR(parseState))) > 0UL)) { parseState->lineNumber++; parseState->atIndex += (newlineAdvanceAtIndex - 1UL); parseState->lineStartIndex = parseState->atIndex + 1UL; return(1); }
//  return(0);
//}
//
//JK_STATIC_INLINE void jk_parse_skip_whitespace(JKParseState *parseState) {
//#ifndef __clang_analyzer__
//  NSCParameterAssert((parseState != NULL) && (JK_AT_STRING_PTR(parseState) <= JK_END_STRING_PTR(parseState)));
//  const unsigned char *atCharacterPtr   = NULL;
//  const unsigned char *endOfStringPtr   = JK_END_STRING_PTR(parseState);
//
//  for(atCharacterPtr = JK_AT_STRING_PTR(parseState); (JK_EXPECT_T((atCharacterPtr = JK_AT_STRING_PTR(parseState)) < endOfStringPtr)); parseState->atIndex++) {
//    if(((*(atCharacterPtr + 0)) == ' ') || ((*(atCharacterPtr + 0)) == '\t')) { continue; }
//    if(jk_parse_skip_newline(parseState)) { continue; }
//    if(parseState->parseOptionFlags & JKParseOptionComments) {
//      if((JK_EXPECT_F((*(atCharacterPtr + 0)) == '/')) && (JK_EXPECT_T((atCharacterPtr + 1) < endOfStringPtr))) {
//        if((*(atCharacterPtr + 1)) == '/') {
//          parseState->atIndex++;
//          for(atCharacterPtr = JK_AT_STRING_PTR(parseState); (JK_EXPECT_T((atCharacterPtr = JK_AT_STRING_PTR(parseState)) < endOfStringPtr)); parseState->atIndex++) { if(jk_parse_skip_newline(parseState)) { break; } }
//          continue;
//        }
//        if((*(atCharacterPtr + 1)) == '*') {
//          parseState->atIndex++;
//          for(atCharacterPtr = JK_AT_STRING_PTR(parseState); (JK_EXPECT_T((atCharacterPtr = JK_AT_STRING_PTR(parseState)) < endOfStringPtr)); parseState->atIndex++) {
//            if(jk_parse_skip_newline(parseState)) { continue; }
//            if(((*(atCharacterPtr + 0)) == '*') && (((atCharacterPtr + 1) < endOfStringPtr) && ((*(atCharacterPtr + 1)) == '/'))) { parseState->atIndex++; break; }
//          }
//          continue;
//        }
//      }
//    }
//    break;
//  }
//#endif
//}
//
//static int jk_parse_next_token(JKParseState *parseState) {
//  NSCParameterAssert((parseState != NULL) && (JK_AT_STRING_PTR(parseState) <= JK_END_STRING_PTR(parseState)));
//  const unsigned char *atCharacterPtr   = NULL;
//  const unsigned char *endOfStringPtr   = JK_END_STRING_PTR(parseState);
//  unsigned char        currentCharacter = 0U;
//  int                  stopParsing      = 0;
//
//  parseState->prev_atIndex        = parseState->atIndex;
//  parseState->prev_lineNumber     = parseState->lineNumber;
//  parseState->prev_lineStartIndex = parseState->lineStartIndex;
//
//  jk_parse_skip_whitespace(parseState);
//
//  if((JK_AT_STRING_PTR(parseState) == endOfStringPtr)) { stopParsing = 1; }
//
//  if((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T((atCharacterPtr = JK_AT_STRING_PTR(parseState)) < endOfStringPtr))) {
//    currentCharacter = *atCharacterPtr;
//
//         if(JK_EXPECT_T(currentCharacter == '"')) { if(JK_EXPECT_T((stopParsing = jk_parse_string(parseState)) == 0)) { jk_set_parsed_token(parseState, parseState->token.tokenPtrRange.ptr, parseState->token.tokenPtrRange.length, JKTokenTypeString, 0UL); } }
//    else if(JK_EXPECT_T(currentCharacter == ':')) { jk_set_parsed_token(parseState, atCharacterPtr, 1UL, JKTokenTypeSeparator,   1UL); }
//    else if(JK_EXPECT_T(currentCharacter == ',')) { jk_set_parsed_token(parseState, atCharacterPtr, 1UL, JKTokenTypeComma,       1UL); }
//    else if((JK_EXPECT_T(currentCharacter >= '0') && JK_EXPECT_T(currentCharacter <= '9')) || JK_EXPECT_T(currentCharacter == '-')) { if(JK_EXPECT_T((stopParsing = jk_parse_number(parseState)) == 0)) { jk_set_parsed_token(parseState, parseState->token.tokenPtrRange.ptr, parseState->token.tokenPtrRange.length, JKTokenTypeNumber, 0UL); } }
//    else if(JK_EXPECT_T(currentCharacter == '{')) { jk_set_parsed_token(parseState, atCharacterPtr, 1UL, JKTokenTypeObjectBegin, 1UL); }
//    else if(JK_EXPECT_T(currentCharacter == '}')) { jk_set_parsed_token(parseState, atCharacterPtr, 1UL, JKTokenTypeObjectEnd,   1UL); }
//    else if(JK_EXPECT_T(currentCharacter == '[')) { jk_set_parsed_token(parseState, atCharacterPtr, 1UL, JKTokenTypeArrayBegin,  1UL); }
//    else if(JK_EXPECT_T(currentCharacter == ']')) { jk_set_parsed_token(parseState, atCharacterPtr, 1UL, JKTokenTypeArrayEnd,    1UL); }
//    
//    else if(JK_EXPECT_T(currentCharacter == 't')) { if(!((JK_EXPECT_T((atCharacterPtr + 4UL) < endOfStringPtr)) && (JK_EXPECT_T(atCharacterPtr[1] == 'r')) && (JK_EXPECT_T(atCharacterPtr[2] == 'u')) && (JK_EXPECT_T(atCharacterPtr[3] == 'e'))))                                            { stopParsing = 1; /* XXX Add error message */ } else { jk_set_parsed_token(parseState, atCharacterPtr, 4UL, JKTokenTypeTrue,  4UL); } }
//    else if(JK_EXPECT_T(currentCharacter == 'f')) { if(!((JK_EXPECT_T((atCharacterPtr + 5UL) < endOfStringPtr)) && (JK_EXPECT_T(atCharacterPtr[1] == 'a')) && (JK_EXPECT_T(atCharacterPtr[2] == 'l')) && (JK_EXPECT_T(atCharacterPtr[3] == 's')) && (JK_EXPECT_T(atCharacterPtr[4] == 'e')))) { stopParsing = 1; /* XXX Add error message */ } else { jk_set_parsed_token(parseState, atCharacterPtr, 5UL, JKTokenTypeFalse, 5UL); } }
//    else if(JK_EXPECT_T(currentCharacter == 'n')) { if(!((JK_EXPECT_T((atCharacterPtr + 4UL) < endOfStringPtr)) && (JK_EXPECT_T(atCharacterPtr[1] == 'u')) && (JK_EXPECT_T(atCharacterPtr[2] == 'l')) && (JK_EXPECT_T(atCharacterPtr[3] == 'l'))))                                            { stopParsing = 1; /* XXX Add error message */ } else { jk_set_parsed_token(parseState, atCharacterPtr, 4UL, JKTokenTypeNull,  4UL); } }
//    else { stopParsing = 1; /* XXX Add error message */ }    
//  }
//
//  if(JK_EXPECT_F(stopParsing)) { jk_error(parseState, @"Unexpected token, wanted '{', '}', '[', ']', ',', ':', 'true', 'false', 'null', '\"STRING\"', 'NUMBER'."); }
//  return(stopParsing);
//}
//
//static void jk_error_parse_accept_or3(JKParseState *parseState, int state, NSString *or1String, NSString *or2String, NSString *or3String) {
//  NSString *acceptStrings[16];
//  int acceptIdx = 0;
//  if(state & JKParseAcceptValue) { acceptStrings[acceptIdx++] = or1String; }
//  if(state & JKParseAcceptComma) { acceptStrings[acceptIdx++] = or2String; }
//  if(state & JKParseAcceptEnd)   { acceptStrings[acceptIdx++] = or3String; }
//       if(acceptIdx == 1) { jk_error(parseState, @"Expected %@, not '%*.*s'",           acceptStrings[0],                                     (int)parseState->token.tokenPtrRange.length, (int)parseState->token.tokenPtrRange.length, parseState->token.tokenPtrRange.ptr); }
//  else if(acceptIdx == 2) { jk_error(parseState, @"Expected %@ or %@, not '%*.*s'",     acceptStrings[0], acceptStrings[1],                   (int)parseState->token.tokenPtrRange.length, (int)parseState->token.tokenPtrRange.length, parseState->token.tokenPtrRange.ptr); }
//  else if(acceptIdx == 3) { jk_error(parseState, @"Expected %@, %@, or %@, not '%*.*s", acceptStrings[0], acceptStrings[1], acceptStrings[2], (int)parseState->token.tokenPtrRange.length, (int)parseState->token.tokenPtrRange.length, parseState->token.tokenPtrRange.ptr); }
//}
//
//static void *jk_parse_array(JKParseState *parseState) {
//  size_t  startingObjectIndex = parseState->objectStack.index;
//  int     arrayState          = JKParseAcceptValueOrEnd, stopParsing = 0;
//  void   *parsedArray         = NULL;
//
//  while(JK_EXPECT_T((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T(parseState->atIndex < parseState->stringBuffer.bytes.length)))) {
//    if(JK_EXPECT_F(parseState->objectStack.index > (parseState->objectStack.count - 4UL))) { if(jk_objectStack_resize(&parseState->objectStack, parseState->objectStack.count + 128UL)) { jk_error(parseState, @"Internal error: [array] objectsIndex > %zu, resize failed? %@ line %#ld", (parseState->objectStack.count - 4UL), [NSString stringWithUTF8String:__FILE__], (long)__LINE__); break; } }
//
//    if(JK_EXPECT_T((stopParsing = jk_parse_next_token(parseState)) == 0)) {
//      void *object = NULL;
//#ifndef NS_BLOCK_ASSERTIONS
//      parseState->objectStack.objects[parseState->objectStack.index] = NULL;
//      parseState->objectStack.keys   [parseState->objectStack.index] = NULL;
//#endif
//      switch(parseState->token.type) {
//        case JKTokenTypeNumber:
//        case JKTokenTypeString:
//        case JKTokenTypeTrue:
//        case JKTokenTypeFalse:
//        case JKTokenTypeNull:
//        case JKTokenTypeArrayBegin:
//        case JKTokenTypeObjectBegin:
//          if(JK_EXPECT_F((arrayState & JKParseAcceptValue)          == 0))    { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected value.");              stopParsing = 1; break; }
//          if(JK_EXPECT_F((object = jk_object_for_token(parseState)) == NULL)) {                              jk_error(parseState, @"Internal error: Object == NULL"); stopParsing = 1; break; } else { parseState->objectStack.objects[parseState->objectStack.index++] = object; arrayState = JKParseAcceptCommaOrEnd; }
//          break;
//        case JKTokenTypeArrayEnd: if(JK_EXPECT_T(arrayState & JKParseAcceptEnd)) { NSCParameterAssert(parseState->objectStack.index >= startingObjectIndex); parsedArray = (void *)_JKArrayCreate((id *)&parseState->objectStack.objects[startingObjectIndex], (parseState->objectStack.index - startingObjectIndex), parseState->mutableCollections); } else { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected ']'."); } stopParsing = 1; break;
//        case JKTokenTypeComma:    if(JK_EXPECT_T(arrayState & JKParseAcceptComma)) { arrayState = JKParseAcceptValue; } else { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected ','."); stopParsing = 1; } break;
//        default: parseState->errorIsPrev = 1; jk_error_parse_accept_or3(parseState, arrayState, @"a value", @"a comma", @"a ']'"); stopParsing = 1; break;
//      }
//    }
//  }
//
//  if(JK_EXPECT_F(parsedArray == NULL)) { size_t idx = 0UL; for(idx = startingObjectIndex; idx < parseState->objectStack.index; idx++) { if(parseState->objectStack.objects[idx] != NULL) { CFRelease(parseState->objectStack.objects[idx]); parseState->objectStack.objects[idx] = NULL; } } }
//#if !defined(NS_BLOCK_ASSERTIONS)
//  else { size_t idx = 0UL; for(idx = startingObjectIndex; idx < parseState->objectStack.index; idx++) { parseState->objectStack.objects[idx] = NULL; parseState->objectStack.keys[idx] = NULL; } }
//#endif
//  
//  parseState->objectStack.index = startingObjectIndex;
//  return(parsedArray);
//}
//
//static void *jk_create_dictionary(JKParseState *parseState, size_t startingObjectIndex) {
//  void *parsedDictionary = NULL;
//
//  parseState->objectStack.index--;
//
//  parsedDictionary = _JKDictionaryCreate((id *)&parseState->objectStack.keys[startingObjectIndex], (NSUInteger *)&parseState->objectStack.cfHashes[startingObjectIndex], (id *)&parseState->objectStack.objects[startingObjectIndex], (parseState->objectStack.index - startingObjectIndex), parseState->mutableCollections);
//
//  return(parsedDictionary);
//}
//
//static void *jk_parse_dictionary(JKParseState *parseState) {
//  size_t  startingObjectIndex = parseState->objectStack.index;
//  int     dictState           = JKParseAcceptValueOrEnd, stopParsing = 0;
//  void   *parsedDictionary    = NULL;
//
//  while(JK_EXPECT_T((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T(parseState->atIndex < parseState->stringBuffer.bytes.length)))) {
//    if(JK_EXPECT_F(parseState->objectStack.index > (parseState->objectStack.count - 4UL))) { if(jk_objectStack_resize(&parseState->objectStack, parseState->objectStack.count + 128UL)) { jk_error(parseState, @"Internal error: [dictionary] objectsIndex > %zu, resize failed? %@ line #%ld", (parseState->objectStack.count - 4UL), [NSString stringWithUTF8String:__FILE__], (long)__LINE__); break; } }
//
//    size_t objectStackIndex = parseState->objectStack.index++;
//    parseState->objectStack.keys[objectStackIndex]    = NULL;
//    parseState->objectStack.objects[objectStackIndex] = NULL;
//    void *key = NULL, *object = NULL;
//
//    if(JK_EXPECT_T((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T((stopParsing = jk_parse_next_token(parseState)) == 0)))) {
//      switch(parseState->token.type) {
//        case JKTokenTypeString:
//          if(JK_EXPECT_F((dictState & JKParseAcceptValue)        == 0))    { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected string.");           stopParsing = 1; break; }
//          if(JK_EXPECT_F((key = jk_object_for_token(parseState)) == NULL)) {                              jk_error(parseState, @"Internal error: Key == NULL."); stopParsing = 1; break; }
//          else {
//            parseState->objectStack.keys[objectStackIndex] = key;
//            if(JK_EXPECT_T(parseState->token.value.cacheItem != NULL)) { if(JK_EXPECT_F(parseState->token.value.cacheItem->cfHash == 0UL)) { parseState->token.value.cacheItem->cfHash = CFHash(key); } parseState->objectStack.cfHashes[objectStackIndex] = parseState->token.value.cacheItem->cfHash; }
//            else { parseState->objectStack.cfHashes[objectStackIndex] = CFHash(key); }
//          }
//          break;
//
//        case JKTokenTypeObjectEnd: if((JK_EXPECT_T(dictState & JKParseAcceptEnd)))   { NSCParameterAssert(parseState->objectStack.index >= startingObjectIndex); parsedDictionary = jk_create_dictionary(parseState, startingObjectIndex); } else { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected '}'."); } stopParsing = 1; break;
//        case JKTokenTypeComma:     if((JK_EXPECT_T(dictState & JKParseAcceptComma))) { dictState = JKParseAcceptValue; parseState->objectStack.index--; continue; } else { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected ','."); stopParsing = 1; } break;
//
//        default: parseState->errorIsPrev = 1; jk_error_parse_accept_or3(parseState, dictState, @"a \"STRING\"", @"a comma", @"a '}'"); stopParsing = 1; break;
//      }
//    }
//
//    if(JK_EXPECT_T(stopParsing == 0)) {
//      if(JK_EXPECT_T((stopParsing = jk_parse_next_token(parseState)) == 0)) { if(JK_EXPECT_F(parseState->token.type != JKTokenTypeSeparator)) { parseState->errorIsPrev = 1; jk_error(parseState, @"Expected ':'."); stopParsing = 1; } }
//    }
//
//    if((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T((stopParsing = jk_parse_next_token(parseState)) == 0))) {
//      switch(parseState->token.type) {
//        case JKTokenTypeNumber:
//        case JKTokenTypeString:
//        case JKTokenTypeTrue:
//        case JKTokenTypeFalse:
//        case JKTokenTypeNull:
//        case JKTokenTypeArrayBegin:
//        case JKTokenTypeObjectBegin:
//          if(JK_EXPECT_F((dictState & JKParseAcceptValue)           == 0))    { parseState->errorIsPrev = 1; jk_error(parseState, @"Unexpected value.");               stopParsing = 1; break; }
//          if(JK_EXPECT_F((object = jk_object_for_token(parseState)) == NULL)) {                              jk_error(parseState, @"Internal error: Object == NULL."); stopParsing = 1; break; } else { parseState->objectStack.objects[objectStackIndex] = object; dictState = JKParseAcceptCommaOrEnd; }
//          break;
//        default: parseState->errorIsPrev = 1; jk_error_parse_accept_or3(parseState, dictState, @"a value", @"a comma", @"a '}'"); stopParsing = 1; break;
//      }
//    }
//  }
//
//  if(JK_EXPECT_F(parsedDictionary == NULL)) { size_t idx = 0UL; for(idx = startingObjectIndex; idx < parseState->objectStack.index; idx++) { if(parseState->objectStack.keys[idx] != NULL) { CFRelease(parseState->objectStack.keys[idx]); parseState->objectStack.keys[idx] = NULL; } if(parseState->objectStack.objects[idx] != NULL) { CFRelease(parseState->objectStack.objects[idx]); parseState->objectStack.objects[idx] = NULL; } } }
//#if !defined(NS_BLOCK_ASSERTIONS)
//  else { size_t idx = 0UL; for(idx = startingObjectIndex; idx < parseState->objectStack.index; idx++) { parseState->objectStack.objects[idx] = NULL; parseState->objectStack.keys[idx] = NULL; } }
//#endif
//
//  parseState->objectStack.index = startingObjectIndex;
//  return(parsedDictionary);
//}
//
//static id json_parse_it(JKParseState *parseState) {
//  id  parsedObject = NULL;
//  int stopParsing  = 0;
//
//  while((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T(parseState->atIndex < parseState->stringBuffer.bytes.length))) {
//    if((JK_EXPECT_T(stopParsing == 0)) && (JK_EXPECT_T((stopParsing = jk_parse_next_token(parseState)) == 0))) {
//      switch(parseState->token.type) {
//        case JKTokenTypeArrayBegin:
//        case JKTokenTypeObjectBegin: parsedObject = [(id)jk_object_for_token(parseState) autorelease]; stopParsing = 1; break;
//        default:                     jk_error(parseState, @"Expected either '[' or '{'.");             stopParsing = 1; break;
//      }
//    }
//  }
//
//  NSCParameterAssert((parseState->objectStack.index == 0) && (JK_AT_STRING_PTR(parseState) <= JK_END_STRING_PTR(parseState)));
//
//  if((parsedObject == NULL) && (JK_AT_STRING_PTR(parseState) == JK_END_STRING_PTR(parseState))) { jk_error(parseState, @"Reached the end of the buffer."); }
//  if(parsedObject == NULL) { jk_error(parseState, @"Unable to parse JSON."); }
//
//  if((parsedObject != NULL) && (JK_AT_STRING_PTR(parseState) < JK_END_STRING_PTR(parseState))) {
//    jk_parse_skip_whitespace(parseState);
//    if((parsedObject != NULL) && ((parseState->parseOptionFlags & JKParseOptionPermitTextAfterValidJSON) == 0) && (JK_AT_STRING_PTR(parseState) < JK_END_STRING_PTR(parseState))) {
//      jk_error(parseState, @"A valid JSON object was parsed but there were additional non-white-space characters remaining.");
//      parsedObject = NULL;
//    }
//  }
//
//  return(parsedObject);
//}
//
//////////////
//#pragma mark -
//#pragma mark Object cache
//
//// This uses a Galois Linear Feedback Shift Register (LFSR) PRNG to pick which item in the cache to age. It has a period of (2^32)-1.
//// NOTE: A LFSR *MUST* be initialized to a non-zero value and must always have a non-zero value. The LFSR is initalized to 1 in -initWithParseOptions:
//JK_STATIC_INLINE void jk_cache_age(JKParseState *parseState) {
//  NSCParameterAssert((parseState != NULL) && (parseState->cache.prng_lfsr != 0U));
//  parseState->cache.prng_lfsr = (parseState->cache.prng_lfsr >> 1) ^ ((0U - (parseState->cache.prng_lfsr & 1U)) & 0x80200003U);
//  parseState->cache.age[parseState->cache.prng_lfsr & (parseState->cache.count - 1UL)] >>= 1;
//}
//
//// The object cache is nothing more than a hash table with open addressing collision resolution that is bounded by JK_CACHE_PROBES attempts.
////
//// The hash table is a linear C array of JKTokenCacheItem.  The terms "item" and "bucket" are synonymous with the index in to the cache array, i.e. cache.items[bucket].
////
//// Items in the cache have an age associated with them.  An items age is incremented using saturating unsigned arithmetic and decremeted using unsigned right shifts.
//// Thus, an items age is managed using an AIMD policy- additive increase, multiplicative decrease.  All age calculations and manipulations are branchless.
//// The primitive C type MUST be unsigned.  It is currently a "char", which allows (at a minimum and in practice) 8 bits.
////
//// A "useable bucket" is a bucket that is not in use (never populated), or has an age == 0.
////
//// When an item is found in the cache, it's age is incremented.
//// If a useable bucket hasn't been found, the current item (bucket) is aged along with two random items.
////
//// If a value is not found in the cache, and no useable bucket has been found, that value is not added to the cache.
//
//static void *jk_cachedObjects(JKParseState *parseState) {
//  unsigned long  bucket     = parseState->token.value.hash & (parseState->cache.count - 1UL), setBucket = 0UL, useableBucket = 0UL, x = 0UL;
//  void          *parsedAtom = NULL;
//    
//  if(JK_EXPECT_F(parseState->token.value.ptrRange.length == 0UL) && JK_EXPECT_T(parseState->token.value.type == JKValueTypeString)) { return(@""); }
//
//  for(x = 0UL; x < JK_CACHE_PROBES; x++) {
//    if(JK_EXPECT_F(parseState->cache.items[bucket].object == NULL)) { setBucket = 1UL; useableBucket = bucket; break; }
//    
//    if((JK_EXPECT_T(parseState->cache.items[bucket].hash == parseState->token.value.hash)) && (JK_EXPECT_T(parseState->cache.items[bucket].size == parseState->token.value.ptrRange.length)) && (JK_EXPECT_T(parseState->cache.items[bucket].type == parseState->token.value.type)) && (JK_EXPECT_T(parseState->cache.items[bucket].bytes != NULL)) && (JK_EXPECT_T(memcmp(parseState->cache.items[bucket].bytes, parseState->token.value.ptrRange.ptr, parseState->token.value.ptrRange.length) == 0U))) {
//      parseState->cache.age[bucket]     = (((uint32_t)parseState->cache.age[bucket]) + 1U) - (((((uint32_t)parseState->cache.age[bucket]) + 1U) >> 31) ^ 1U);
//      parseState->token.value.cacheItem = &parseState->cache.items[bucket];
//      NSCParameterAssert(parseState->cache.items[bucket].object != NULL);
//      return((void *)CFRetain(parseState->cache.items[bucket].object));
//    } else {
//      if(JK_EXPECT_F(setBucket == 0UL) && JK_EXPECT_F(parseState->cache.age[bucket] == 0U)) { setBucket = 1UL; useableBucket = bucket; }
//      if(JK_EXPECT_F(setBucket == 0UL))                                                     { parseState->cache.age[bucket] >>= 1; jk_cache_age(parseState); jk_cache_age(parseState); }
//      // This is the open addressing function.  The values length and type are used as a form of "double hashing" to distribute values with the same effective value hash across different object cache buckets.
//      // The values type is a prime number that is relatively coprime to the other primes in the set of value types and the number of hash table buckets.
//      bucket = (parseState->token.value.hash + (parseState->token.value.ptrRange.length * (x + 1UL)) + (parseState->token.value.type * (x + 1UL)) + (3UL * (x + 1UL))) & (parseState->cache.count - 1UL);
//    }
//  }
//  
//  switch(parseState->token.value.type) {
//    case JKValueTypeString:           parsedAtom = (void *)CFStringCreateWithBytes(NULL, parseState->token.value.ptrRange.ptr, parseState->token.value.ptrRange.length, kCFStringEncodingUTF8, 0); break;
//    case JKValueTypeLongLong:         parsedAtom = (void *)CFNumberCreate(NULL, kCFNumberLongLongType, &parseState->token.value.number.longLongValue);                                             break;
//    case JKValueTypeUnsignedLongLong:
//      if(parseState->token.value.number.unsignedLongLongValue <= LLONG_MAX) { parsedAtom = (void *)CFNumberCreate(NULL, kCFNumberLongLongType, &parseState->token.value.number.unsignedLongLongValue); }
//      else { parsedAtom = (void *)parseState->objCImpCache.NSNumberInitWithUnsignedLongLong(parseState->objCImpCache.NSNumberAlloc(parseState->objCImpCache.NSNumberClass, @selector(alloc)), @selector(initWithUnsignedLongLong:), parseState->token.value.number.unsignedLongLongValue); }
//      break;
//    case JKValueTypeDouble:           parsedAtom = (void *)CFNumberCreate(NULL, kCFNumberDoubleType,   &parseState->token.value.number.doubleValue);                                               break;
//    default: jk_error(parseState, @"Internal error: Unknown token value type. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); break;
//  }
//  
//  if(JK_EXPECT_T(setBucket) && (JK_EXPECT_T(parsedAtom != NULL))) {
//    bucket = useableBucket;
//    if(JK_EXPECT_T((parseState->cache.items[bucket].object != NULL))) { CFRelease(parseState->cache.items[bucket].object); parseState->cache.items[bucket].object = NULL; }
//    
//    if(JK_EXPECT_T((parseState->cache.items[bucket].bytes = (unsigned char *)reallocf(parseState->cache.items[bucket].bytes, parseState->token.value.ptrRange.length)) != NULL)) {
//      memcpy(parseState->cache.items[bucket].bytes, parseState->token.value.ptrRange.ptr, parseState->token.value.ptrRange.length);
//      parseState->cache.items[bucket].object = (void *)CFRetain(parsedAtom);
//      parseState->cache.items[bucket].hash   = parseState->token.value.hash;
//      parseState->cache.items[bucket].cfHash = 0UL;
//      parseState->cache.items[bucket].size   = parseState->token.value.ptrRange.length;
//      parseState->cache.items[bucket].type   = parseState->token.value.type;
//      parseState->token.value.cacheItem      = &parseState->cache.items[bucket];
//      parseState->cache.age[bucket]          = JK_INIT_CACHE_AGE;
//    } else { // The realloc failed, so clear the appropriate fields.
//      parseState->cache.items[bucket].hash   = 0UL;
//      parseState->cache.items[bucket].cfHash = 0UL;
//      parseState->cache.items[bucket].size   = 0UL;
//      parseState->cache.items[bucket].type   = 0UL;
//    }
//  }
//  
//  return(parsedAtom);
//}
//
//
//static void *jk_object_for_token(JKParseState *parseState) {
//  void *parsedAtom = NULL;
//  
//  parseState->token.value.cacheItem = NULL;
//  switch(parseState->token.type) {
//    case JKTokenTypeString:      parsedAtom = jk_cachedObjects(parseState);    break;
//    case JKTokenTypeNumber:      parsedAtom = jk_cachedObjects(parseState);    break;
//    case JKTokenTypeObjectBegin: parsedAtom = jk_parse_dictionary(parseState); break;
//    case JKTokenTypeArrayBegin:  parsedAtom = jk_parse_array(parseState);      break;
//    case JKTokenTypeTrue:        parsedAtom = (void *)kCFBooleanTrue;          break;
//    case JKTokenTypeFalse:       parsedAtom = (void *)kCFBooleanFalse;         break;
//    case JKTokenTypeNull:        parsedAtom = (void *)kCFNull;                 break;
//    default: jk_error(parseState, @"Internal error: Unknown token type. %@ line #%ld", [NSString stringWithUTF8String:__FILE__], (long)__LINE__); break;
//  }
//  
//  return(parsedAtom);
//}
//
//#pragma mark -
//@implementation JSONDecoder
//
//+ (id)decoder
//{
//  return([self decoderWithParseOptions:JKParseOptionStrict]);
//}
//
//+ (id)decoderWithParseOptions:(JKParseOptionFlags)parseOptionFlags
//{
//  return([[[self alloc] initWithParseOptions:parseOptionFlags] autorelease]);
//}
//
//- (id)init
//{
//  return([self initWithParseOptions:JKParseOptionStrict]);
//}
//
//- (id)initWithParseOptions:(JKParseOptionFlags)parseOptionFlags
//{
//  if((self = [super init]) == NULL) { return(NULL); }
//
//  if(parseOptionFlags & ~JKParseOptionValidFlags) { [self autorelease]; [NSException raise:NSInvalidArgumentException format:@"Invalid parse options."]; }
//
//  if((parseState = (JKParseState *)calloc(1UL, sizeof(JKParseState))) == NULL) { goto errorExit; }
//
//  parseState->parseOptionFlags = parseOptionFlags;
//  
//  parseState->token.tokenBuffer.roundSizeUpToMultipleOf = 4096UL;
//  parseState->objectStack.roundSizeUpToMultipleOf       = 2048UL;
//
//  parseState->objCImpCache.NSNumberClass                    = _jk_NSNumberClass;
//  parseState->objCImpCache.NSNumberAlloc                    = _jk_NSNumberAllocImp;
//  parseState->objCImpCache.NSNumberInitWithUnsignedLongLong = _jk_NSNumberInitWithUnsignedLongLongImp;
//  
//  parseState->cache.prng_lfsr = 1U;
//  parseState->cache.count     = JK_CACHE_SLOTS;
//  if((parseState->cache.items = (JKTokenCacheItem *)calloc(1UL, sizeof(JKTokenCacheItem) * parseState->cache.count)) == NULL) { goto errorExit; }
//
//  return(self);
//
// errorExit:
//  if(self) { [self autorelease]; self = NULL; }
//  return(NULL);
//}
//
//// This is here primarily to support the NSString and NSData convenience functions so the autoreleased JSONDecoder can release most of its resources before the pool pops.
//static void _JSONDecoderCleanup(JSONDecoder *decoder) {
//  if((decoder != NULL) && (decoder->parseState != NULL)) {
//    jk_managedBuffer_release(&decoder->parseState->token.tokenBuffer);
//    jk_objectStack_release(&decoder->parseState->objectStack);
//    
//    [decoder clearCache];
//    if(decoder->parseState->cache.items != NULL) { free(decoder->parseState->cache.items); decoder->parseState->cache.items = NULL; }
//    
//    free(decoder->parseState); decoder->parseState = NULL;
//  }
//}
//
//- (void)dealloc
//{
//  _JSONDecoderCleanup(self);
//  [super dealloc];
//}
//
//- (void)clearCache
//{
//  if(JK_EXPECT_T(parseState != NULL)) {
//    if(JK_EXPECT_T(parseState->cache.items != NULL)) {
//      size_t idx = 0UL;
//      for(idx = 0UL; idx < parseState->cache.count; idx++) {
//        if(JK_EXPECT_T(parseState->cache.items[idx].object != NULL)) { CFRelease(parseState->cache.items[idx].object); parseState->cache.items[idx].object = NULL; }
//        if(JK_EXPECT_T(parseState->cache.items[idx].bytes  != NULL)) { free(parseState->cache.items[idx].bytes);       parseState->cache.items[idx].bytes  = NULL; }
//        memset(&parseState->cache.items[idx], 0, sizeof(JKTokenCacheItem));
//        parseState->cache.age[idx] = 0U;
//      }
//    }
//  }
//}
//
//// This needs to be completely rewritten.
//static id _JKParseUTF8String(JKParseState *parseState, BOOL mutableCollections, const unsigned char *string, size_t length, NSError **error) {
//  NSCParameterAssert((parseState != NULL) && (string != NULL) && (parseState->cache.prng_lfsr != 0U));
//  parseState->stringBuffer.bytes.ptr    = string;
//  parseState->stringBuffer.bytes.length = length;
//  parseState->atIndex                   = 0UL;
//  parseState->lineNumber                = 1UL;
//  parseState->lineStartIndex            = 0UL;
//  parseState->prev_atIndex              = 0UL;
//  parseState->prev_lineNumber           = 1UL;
//  parseState->prev_lineStartIndex       = 0UL;
//  parseState->error                     = NULL;
//  parseState->errorIsPrev               = 0;
//  parseState->mutableCollections        = (mutableCollections == NO) ? NO : YES;
//  
//  unsigned char stackTokenBuffer[JK_TOKENBUFFER_SIZE] JK_ALIGNED(64);
//  jk_managedBuffer_setToStackBuffer(&parseState->token.tokenBuffer, stackTokenBuffer, sizeof(stackTokenBuffer));
//  
//  void       *stackObjects [JK_STACK_OBJS] JK_ALIGNED(64);
//  void       *stackKeys    [JK_STACK_OBJS] JK_ALIGNED(64);
//  CFHashCode  stackCFHashes[JK_STACK_OBJS] JK_ALIGNED(64);
//  jk_objectStack_setToStackBuffer(&parseState->objectStack, stackObjects, stackKeys, stackCFHashes, JK_STACK_OBJS);
//  
//  id parsedJSON = json_parse_it(parseState);
//  
//  if((error != NULL) && (parseState->error != NULL)) { *error = parseState->error; }
//  
//  jk_managedBuffer_release(&parseState->token.tokenBuffer);
//  jk_objectStack_release(&parseState->objectStack);
//  
//  parseState->stringBuffer.bytes.ptr    = NULL;
//  parseState->stringBuffer.bytes.length = 0UL;
//  parseState->atIndex                   = 0UL;
//  parseState->lineNumber                = 1UL;
//  parseState->lineStartIndex            = 0UL;
//  parseState->prev_atIndex              = 0UL;
//  parseState->prev_lineNumber           = 1UL;
//  parseState->prev_lineStartIndex       = 0UL;
//  parseState->error                     = NULL;
//  parseState->errorIsPrev               = 0;
//  parseState->mutableCollections        = NO;
//  
//  return(parsedJSON);
//}
//
//////////////
//#pragma mark Deprecated as of v1.4
//////////////
//
//// Deprecated in JSONKit v1.4.  Use objectWithUTF8String:length: instead.
//- (id)parseUTF8String:(const unsigned char *)string length:(size_t)length
//{
//  return([self objectWithUTF8String:string length:length error:NULL]);
//}
//
//// Deprecated in JSONKit v1.4.  Use objectWithUTF8String:length:error: instead.
//- (id)parseUTF8String:(const unsigned char *)string length:(size_t)length error:(NSError **)error
//{
//  return([self objectWithUTF8String:string length:length error:error]);
//}
//
//// Deprecated in JSONKit v1.4.  Use objectWithData: instead.
//- (id)parseJSONData:(NSData *)jsonData
//{
//  return([self objectWithData:jsonData error:NULL]);
//}
//
//// Deprecated in JSONKit v1.4.  Use objectWithData:error: instead.
//- (id)parseJSONData:(NSData *)jsonData error:(NSError **)error
//{
//  return([self objectWithData:jsonData error:error]);
//}
//
//////////////
//#pragma mark Methods that return immutable collection objects
//////////////
//
//- (id)objectWithUTF8String:(const unsigned char *)string length:(NSUInteger)length
//{
//  return([self objectWithUTF8String:string length:length error:NULL]);
//}
//
//- (id)objectWithUTF8String:(const unsigned char *)string length:(NSUInteger)length error:(NSError **)error
//{
//  if(parseState == NULL) { [NSException raise:NSInternalInconsistencyException format:@"parseState is NULL."];          }
//  if(string     == NULL) { [NSException raise:NSInvalidArgumentException       format:@"The string argument is NULL."]; }
//  
//  return(_JKParseUTF8String(parseState, NO, string, (size_t)length, error));
//}
//
//- (id)objectWithData:(NSData *)jsonData
//{
//  return([self objectWithData:jsonData error:NULL]);
//}
//
//- (id)objectWithData:(NSData *)jsonData error:(NSError **)error
//{
//  if(jsonData == NULL) { [NSException raise:NSInvalidArgumentException format:@"The jsonData argument is NULL."]; }
//  return([self objectWithUTF8String:(const unsigned char *)[jsonData bytes] length:[jsonData length] error:error]);
//}
//
//////////////
//#pragma mark Methods that return mutable collection objects
//////////////
//
//- (id)mutableObjectWithUTF8String:(const unsigned char *)string length:(NSUInteger)length
//{
//  return([self mutableObjectWithUTF8String:string length:length error:NULL]);
//}
//
//- (id)mutableObjectWithUTF8String:(const unsigned char *)string length:(NSUInteger)length error:(NSError **)error
//{
//  if(parseState == NULL) { [NSException raise:NSInternalInconsistencyException format:@"parseState is NULL."];          }
//  if(string     == NULL) { [NSException raise:NSInvalidArgumentException       format:@"The string argument is NULL."]; }
//  
//  return(_JKParseUTF8String(parseState, YES, string, (size_t)length, error));
//}
//
//- (id)mutableObjectWithData:(NSData *)jsonData
//{
//  return([self mutableObjectWithData:jsonData error:NULL]);
//}
//
//- (id)mutableObjectWithData:(NSData *)jsonData error:(NSError **)error
//{
//  if(jsonData == NULL) { [NSException raise:NSInvalidArgumentException format:@"The jsonData argument is NULL."]; }
//  return([self mutableObjectWithUTF8String:(const unsigned char *)[jsonData bytes] length:[jsonData length] error:error]);
//}
//
//@end
//
///*
// The NSString and NSData convenience methods need a little bit of explanation.
// 
// Prior to JSONKit v1.4, the NSString -objectFromJSONStringWithParseOptions:error: method looked like
// 
// const unsigned char *utf8String = (const unsigned char *)[self UTF8String];
// if(utf8String == NULL) { return(NULL); }
// size_t               utf8Length = strlen((const char *)utf8String); 
// return([[JSONDecoder decoderWithParseOptions:parseOptionFlags] parseUTF8String:utf8String length:utf8Length error:error]);
// 
// This changed with v1.4 to a more complicated method.  The reason for this is to keep the amount of memory that is
// allocated, but not yet freed because it is dependent on the autorelease pool to pop before it can be reclaimed.
// 
// In the simpler v1.3 code, this included all the bytes used to store the -UTF8String along with the JSONDecoder and all its overhead.
// 
// Now we use an autoreleased CFMutableData that is sized to the UTF8 length of the NSString in question and is used to hold the UTF8
// conversion of said string.
// 
// Once parsed, the CFMutableData has its length set to 0.  This should, hopefully, allow the CFMutableData to realloc and/or free
// the buffer.
// 
// Another change made was a slight modification to JSONDecoder so that most of the cleanup work that was done in -dealloc was moved
// to a private, internal function.  These convenience routines keep the pointer to the autoreleased JSONDecoder and calls
// _JSONDecoderCleanup() to early release the decoders resources since we already know that particular decoder is not going to be used
// again.  
// 
// If everything goes smoothly, this will most likely result in perhaps a few hundred bytes that are allocated but waiting for the
// autorelease pool to pop.  This is compared to the thousands and easily hundreds of thousands of bytes that would have been in
// autorelease limbo.  It's more complicated for us, but a win for the user.
// 
// Autorelease objects are used in case things don't go smoothly.  By having them autoreleased, we effectively guarantee that our
// requirement to -release the object is always met, not matter what goes wrong.  The downside is having a an object or two in
// autorelease limbo, but we've done our best to minimize that impact, so it all balances out.
// */
//
//@implementation NSString (JSONKitDeserializing)
//
//static id _NSStringObjectFromJSONString(NSString *jsonString, JKParseOptionFlags parseOptionFlags, NSError **error, BOOL mutableCollection) {
//  id                returnObject = NULL;
//  CFMutableDataRef  mutableData  = NULL;
//  JSONDecoder      *decoder      = NULL;
//  
//  CFIndex    stringLength     = CFStringGetLength((CFStringRef)jsonString);
//  NSUInteger stringUTF8Length = [jsonString lengthOfBytesUsingEncoding:NSUTF8StringEncoding];
//  
//  if((mutableData = (CFMutableDataRef)[(id)CFDataCreateMutable(NULL, (NSUInteger)stringUTF8Length) autorelease]) != NULL) {
//    UInt8   *utf8String = CFDataGetMutableBytePtr(mutableData);
//    CFIndex  usedBytes  = 0L, convertedCount = 0L;
//    
//    convertedCount = CFStringGetBytes((CFStringRef)jsonString, CFRangeMake(0L, stringLength), kCFStringEncodingUTF8, '?', NO, utf8String, (NSUInteger)stringUTF8Length, &usedBytes);
//    if(JK_EXPECT_F(convertedCount != stringLength) || JK_EXPECT_F(usedBytes < 0L)) { if(error != NULL) { *error = [NSError errorWithDomain:@"JKErrorDomain" code:-1L userInfo:[NSDictionary dictionaryWithObject:@"An error occurred converting the contents of a NSString to UTF8." forKey:NSLocalizedDescriptionKey]]; } goto exitNow; }
//    
//    if(mutableCollection == NO) { returnObject = [(decoder = [JSONDecoder decoderWithParseOptions:parseOptionFlags])        objectWithUTF8String:(const unsigned char *)utf8String length:(size_t)usedBytes error:error]; }
//    else                        { returnObject = [(decoder = [JSONDecoder decoderWithParseOptions:parseOptionFlags]) mutableObjectWithUTF8String:(const unsigned char *)utf8String length:(size_t)usedBytes error:error]; }
//  }
//  
//exitNow:
//  if(mutableData != NULL) { CFDataSetLength(mutableData, 0L); }
//  if(decoder     != NULL) { _JSONDecoderCleanup(decoder);     }
//  return(returnObject);
//}
//
//- (id)objectFromJSONString
//{
//  return([self objectFromJSONStringWithParseOptions:JKParseOptionStrict error:NULL]);
//}
//
//- (id)objectFromJSONStringWithParseOptions:(JKParseOptionFlags)parseOptionFlags
//{
//  return([self objectFromJSONStringWithParseOptions:parseOptionFlags error:NULL]);
//}
//
//- (id)objectFromJSONStringWithParseOptions:(JKParseOptionFlags)parseOptionFlags error:(NSError **)error
//{
//  return(_NSStringObjectFromJSONString(self, parseOptionFlags, error, NO));
//}
//
//
//- (id)mutableObjectFromJSONString
//{
//  return([self mutableObjectFromJSONStringWithParseOptions:JKParseOptionStrict error:NULL]);
//}
//
//- (id)mutableObjectFromJSONStringWithParseOptions:(JKParseOptionFlags)parseOptionFlags
//{
//  return([self mutableObjectFromJSONStringWithParseOptions:parseOptionFlags error:NULL]);
//}
//
//- (id)mutableObjectFromJSONStringWithParseOptions:(JKParseOptionFlags)parseOptionFlags error:(NSError **)error
//{
//  return(_NSStringObjectFromJSONString(self, parseOptionFlags, error, YES));
//}
//
//@end
//
//@implementation NSData (JSONKitDeserializing)
//
//- (id)objectFromJSONData
//{
//  return([self objectFromJSONDataWithParseOptions:JKParseOptionStrict error:NULL]);
//}
//
//- (id)objectFromJSONDataWithParseOptions:(JKParseOptionFlags)parseOptionFlags
//{
//  return([self objectFromJSONDataWithParseOptions:parseOptionFlags error:NULL]);
//}
//
//- (id)objectFromJSONDataWithParseOptions:(JKParseOptionFlags)parseOptionFlags error:(NSError **)error
//{
//  JSONDecoder *decoder = NULL;
//  id returnObject = [(decoder = [JSONDecoder decoderWithParseOptions:parseOptionFlags]) objectWithData:self error:error];
//  if(decoder != NULL) { _JSONDecoderCleanup(decoder); }
//  return(returnObject);
//}
//
//- (id)mutableObjectFromJSONData
//{
//  return([self mutableObjectFromJSONDataWithParseOptions:JKParseOptionStrict error:NULL]);
//}
//
//- (id)mutableObjectFromJSONDataWithParseOptions:(JKParseOptionFlags)parseOptionFlags
//{
//  return([self mutableObjectFromJSONDataWithParseOptions:parseOptionFlags error:NULL]);
//}
//
//- (id)mutableObjectFromJSONDataWithParseOptions:(JKParseOptionFlags)parseOptionFlags error:(NSError **)error
//{
//  JSONDecoder *decoder = NULL;
//  id returnObject = [(decoder = [JSONDecoder decoderWithParseOptions:parseOptionFlags]) mutableObjectWithData:self error:error];
//  if(decoder != NULL) { _JSONDecoderCleanup(decoder); }
//  return(returnObject);
//}
//
//
//@end
//
//////////////
//#pragma mark -
//#pragma mark Encoding / deserializing functions
//
//static void jk_encode_error(JKEncodeState *encodeState, NSString *format, ...) {
//  NSCParameterAssert((encodeState != NULL) && (format != NULL));
//
//  va_list varArgsList;
//  va_start(varArgsList, format);
//  NSString *formatString = [[[NSString alloc] initWithFormat:format arguments:varArgsList] autorelease];
//  va_end(varArgsList);
//
//  if(encodeState->error == NULL) {
//    encodeState->error = [NSError errorWithDomain:@"JKErrorDomain" code:-1L userInfo:
//                                   [NSDictionary dictionaryWithObjectsAndKeys:
//                                                                              formatString, NSLocalizedDescriptionKey,
//                                                                              NULL]];
//  }
//}
//
//JK_STATIC_INLINE void jk_encode_updateCache(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object) {
//  NSCParameterAssert(encodeState != NULL);
//  if(JK_EXPECT_T(cacheSlot != NULL)) {
//    NSCParameterAssert((object != NULL) && (startingAtIndex <= encodeState->atIndex));
//    cacheSlot->object = object;
//    cacheSlot->offset = startingAtIndex;
//    cacheSlot->length = (size_t)(encodeState->atIndex - startingAtIndex);  
//  }
//}
//
//static int jk_encode_printf(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object, const char *format, ...) {
//  va_list varArgsList, varArgsListCopy;
//  va_start(varArgsList, format);
//  va_copy(varArgsListCopy, varArgsList);
//
//  NSCParameterAssert((encodeState != NULL) && (encodeState->atIndex < encodeState->stringBuffer.bytes.length) && (startingAtIndex <= encodeState->atIndex) && (format != NULL));
//
//  ssize_t  formattedStringLength = 0L;
//  int      returnValue           = 0;
//
//  if(JK_EXPECT_T((formattedStringLength = vsnprintf((char *)&encodeState->stringBuffer.bytes.ptr[encodeState->atIndex], (encodeState->stringBuffer.bytes.length - encodeState->atIndex), format, varArgsList)) >= (ssize_t)(encodeState->stringBuffer.bytes.length - encodeState->atIndex))) {
//    NSCParameterAssert(((encodeState->atIndex + (formattedStringLength * 2UL) + 256UL) > encodeState->stringBuffer.bytes.length));
//    if(JK_EXPECT_F(((encodeState->atIndex + (formattedStringLength * 2UL) + 256UL) > encodeState->stringBuffer.bytes.length)) && JK_EXPECT_F((jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + (formattedStringLength * 2UL)+ 4096UL) == NULL))) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); returnValue = 1; goto exitNow; }
//    if(JK_EXPECT_F((formattedStringLength = vsnprintf((char *)&encodeState->stringBuffer.bytes.ptr[encodeState->atIndex], (encodeState->stringBuffer.bytes.length - encodeState->atIndex), format, varArgsListCopy)) >= (ssize_t)(encodeState->stringBuffer.bytes.length - encodeState->atIndex))) { jk_encode_error(encodeState, @"vsnprintf failed unexpectedly."); returnValue = 1; goto exitNow; }
//  }
//  
//exitNow:
//  va_end(varArgsList);
//  va_end(varArgsListCopy);
//  if(JK_EXPECT_T(returnValue == 0)) { encodeState->atIndex += formattedStringLength; jk_encode_updateCache(encodeState, cacheSlot, startingAtIndex, object); }
//  return(returnValue);
//}
//
//static int jk_encode_write(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object, const char *format) {
//  NSCParameterAssert((encodeState != NULL) && (encodeState->atIndex < encodeState->stringBuffer.bytes.length) && (startingAtIndex <= encodeState->atIndex) && (format != NULL));
//  if(JK_EXPECT_F(((encodeState->atIndex + strlen(format) + 256UL) > encodeState->stringBuffer.bytes.length)) && JK_EXPECT_F((jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + strlen(format) + 1024UL) == NULL))) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//
//  size_t formatIdx = 0UL;
//  for(formatIdx = 0UL; format[formatIdx] != 0; formatIdx++) { NSCParameterAssert(encodeState->atIndex < encodeState->stringBuffer.bytes.length); encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = format[formatIdx]; }
//  jk_encode_updateCache(encodeState, cacheSlot, startingAtIndex, object);
//  return(0);
//}
//
//static int jk_encode_writePrettyPrintWhiteSpace(JKEncodeState *encodeState) {
//  NSCParameterAssert((encodeState != NULL) && ((encodeState->serializeOptionFlags & JKSerializeOptionPretty) != 0UL));
//  if(JK_EXPECT_F((encodeState->atIndex + ((encodeState->depth + 1UL) * 2UL) + 16UL) > encodeState->stringBuffer.bytes.length) && JK_EXPECT_T(jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + ((encodeState->depth + 1UL) * 2UL) + 4096UL) == NULL)) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//  encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\n';
//  size_t depthWhiteSpace = 0UL;
//  for(depthWhiteSpace = 0UL; depthWhiteSpace < (encodeState->depth * 2UL); depthWhiteSpace++) { NSCParameterAssert(encodeState->atIndex < encodeState->stringBuffer.bytes.length); encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = ' '; }
//  return(0);
//}  
//
//static int jk_encode_write1slow(JKEncodeState *encodeState, ssize_t depthChange, const char *format) {
//  NSCParameterAssert((encodeState != NULL) && (encodeState->atIndex < encodeState->stringBuffer.bytes.length) && (format != NULL) && ((depthChange >= -1L) && (depthChange <= 1L)) && ((encodeState->depth == 0UL) ? (depthChange >= 0L) : 1) && ((encodeState->serializeOptionFlags & JKSerializeOptionPretty) != 0UL));
//  if(JK_EXPECT_F((encodeState->atIndex + ((encodeState->depth + 1UL) * 2UL) + 16UL) > encodeState->stringBuffer.bytes.length) && JK_EXPECT_F(jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + ((encodeState->depth + 1UL) * 2UL) + 4096UL) == NULL)) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//  encodeState->depth += depthChange;
//  if(JK_EXPECT_T(format[0] == ':')) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = format[0]; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = ' '; }
//  else {
//    if(JK_EXPECT_F(depthChange == -1L)) { if(JK_EXPECT_F(jk_encode_writePrettyPrintWhiteSpace(encodeState))) { return(1); } }
//    encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = format[0];
//    if(JK_EXPECT_T(depthChange != -1L)) { if(JK_EXPECT_F(jk_encode_writePrettyPrintWhiteSpace(encodeState))) { return(1); } }
//  }
//  NSCParameterAssert(encodeState->atIndex < encodeState->stringBuffer.bytes.length);
//  return(0);
//}
//
//static int jk_encode_write1fast(JKEncodeState *encodeState, ssize_t depthChange JK_UNUSED_ARG, const char *format) {
//  NSCParameterAssert((encodeState != NULL) && (encodeState->atIndex < encodeState->stringBuffer.bytes.length) && ((encodeState->serializeOptionFlags & JKSerializeOptionPretty) == 0UL));
//  if(JK_EXPECT_T((encodeState->atIndex + 4UL) < encodeState->stringBuffer.bytes.length)) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = format[0]; }
//  else { return(jk_encode_write(encodeState, NULL, 0UL, NULL, format)); }
//  return(0);
//}
//
//static int jk_encode_writen(JKEncodeState *encodeState, JKEncodeCache *cacheSlot, size_t startingAtIndex, id object, const char *format, size_t length) {
//  NSCParameterAssert((encodeState != NULL) && (encodeState->atIndex < encodeState->stringBuffer.bytes.length) && (startingAtIndex <= encodeState->atIndex));
//  if(JK_EXPECT_F((encodeState->stringBuffer.bytes.length - encodeState->atIndex) < (length + 4UL))) { if(jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + 4096UL + length) == NULL) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); } }
//  memcpy(encodeState->stringBuffer.bytes.ptr + encodeState->atIndex, format, length);
//  encodeState->atIndex += length;
//  jk_encode_updateCache(encodeState, cacheSlot, startingAtIndex, object);
//  return(0);
//}
//
//JK_STATIC_INLINE JKHash jk_encode_object_hash(void *objectPtr) {
//  return( ( (((JKHash)objectPtr) >> 21) ^ (((JKHash)objectPtr) >> 9)   ) + (((JKHash)objectPtr) >> 4) );
//}
//
//static int jk_encode_add_atom_to_buffer(JKEncodeState *encodeState, void *objectPtr) {
//  NSCParameterAssert((encodeState != NULL) && (encodeState->atIndex < encodeState->stringBuffer.bytes.length) && (objectPtr != NULL));
//
//  id     object          = (id)objectPtr, encodeCacheObject = object;
//  int    isClass         = JKClassUnknown;
//  size_t startingAtIndex = encodeState->atIndex;
//
//  JKHash         objectHash = jk_encode_object_hash(objectPtr);
//  JKEncodeCache *cacheSlot  = &encodeState->cache[objectHash % JK_ENCODE_CACHE_SLOTS];
//
//  if(JK_EXPECT_T(cacheSlot->object == object)) {
//    NSCParameterAssert((cacheSlot->object != NULL) &&
//                       (cacheSlot->offset < encodeState->atIndex)                   && ((cacheSlot->offset + cacheSlot->length) < encodeState->atIndex)                                    &&
//                       (cacheSlot->offset < encodeState->stringBuffer.bytes.length) && ((cacheSlot->offset + cacheSlot->length) < encodeState->stringBuffer.bytes.length)                  &&
//                       ((encodeState->stringBuffer.bytes.ptr + encodeState->atIndex)                     < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)) &&
//                       ((encodeState->stringBuffer.bytes.ptr + cacheSlot->offset)                        < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)) &&
//                       ((encodeState->stringBuffer.bytes.ptr + cacheSlot->offset + cacheSlot->length)    < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)));
//    if(JK_EXPECT_F(((encodeState->atIndex + cacheSlot->length + 256UL) > encodeState->stringBuffer.bytes.length)) && JK_EXPECT_F((jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + cacheSlot->length + 1024UL) == NULL))) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//    NSCParameterAssert(((encodeState->atIndex + cacheSlot->length) < encodeState->stringBuffer.bytes.length) &&
//                       ((encodeState->stringBuffer.bytes.ptr + encodeState->atIndex)                     < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)) &&
//                       ((encodeState->stringBuffer.bytes.ptr + encodeState->atIndex + cacheSlot->length) < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)) &&
//                       ((encodeState->stringBuffer.bytes.ptr + cacheSlot->offset)                        < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)) &&
//                       ((encodeState->stringBuffer.bytes.ptr + cacheSlot->offset + cacheSlot->length)    < (encodeState->stringBuffer.bytes.ptr + encodeState->stringBuffer.bytes.length)) &&
//                       ((encodeState->stringBuffer.bytes.ptr + cacheSlot->offset + cacheSlot->length)    < (encodeState->stringBuffer.bytes.ptr + encodeState->atIndex)));
//    memcpy(encodeState->stringBuffer.bytes.ptr + encodeState->atIndex, encodeState->stringBuffer.bytes.ptr + cacheSlot->offset, cacheSlot->length);
//    encodeState->atIndex += cacheSlot->length;
//    return(0);
//  }
//
//  // When we encounter a class that we do not handle, and we have either a delegate or block that the user supplied to format unsupported classes,
//  // we "re-run" the object check.  However, we re-run the object check exactly ONCE.  If the user supplies an object that isn't one of the
//  // supported classes, we fail the second time (i.e., double fault error).
//  BOOL rerunningAfterClassFormatter = NO;
// rerunAfterClassFormatter:;
//
//  // XXX XXX XXX XXX
//  //     
//  //     We need to work around a bug in 10.7, which breaks ABI compatibility with Objective-C going back not just to 10.0, but OpenStep and even NextStep.
//  //     
//  //     It has long been documented that "the very first thing that a pointer to an Objective-C object "points to" is a pointer to that objects class".
//  //     
//  //     This is euphemistically called "tagged pointers".  There are a number of highly technical problems with this, most involving long passages from
//  //     the C standard(s).  In short, one can make a strong case, couched from the perspective of the C standard(s), that that 10.7 "tagged pointers" are
//  //     fundamentally Wrong and Broken, and should have never been implemented.  Assuming those points are glossed over, because the change is very clearly
//  //     breaking ABI compatibility, this should have resulted in a minimum of a "minimum version required" bump in various shared libraries to prevent
//  //     causes code that used to work just fine to suddenly break without warning.
//  //
//  //     In fact, the C standard says that the hack below is "undefined behavior"- there is no requirement that the 10.7 tagged pointer hack of setting the
//  //     "lower, unused bits" must be preserved when casting the result to an integer type, but this "works" because for most architectures
//  //     `sizeof(long) == sizeof(void *)` and the compiler uses the same representation for both.  (note: this is informal, not meant to be
//  //     normative or pedantically correct).
//  //     
//  //     In other words, while this "works" for now, technically the compiler is not obligated to do "what we want", and a later version of the compiler
//  //     is not required in any way to produce the same results or behavior that earlier versions of the compiler did for the statement below.
//  //
//  //     Fan-fucking-tastic.
//  //     
//  //     Why not just use `object_getClass()`?  Because `object->isa` reduces to (typically) a *single* instruction.  Calling `object_getClass()` requires
//  //     that the compiler potentially spill registers, establish a function call frame / environment, and finally execute a "jump subroutine" instruction.
//  //     Then, the called subroutine must spend half a dozen instructions in its prolog, however many instructions doing whatever it does, then half a dozen
//  //     instructions in its prolog.  One instruction compared to dozens, maybe a hundred instructions.
//  //     
//  //     Yes, that's one to two orders of magnitude difference.  Which is compelling in its own right.  When going for performance, you're often happy with
//  //     gains in the two to three percent range.
//  //     
//  // XXX XXX XXX XXX
//
//
//  BOOL   workAroundMacOSXABIBreakingBug = (JK_EXPECT_F(((NSUInteger)object) & 0x1))     ? YES  : NO;
//  void  *objectISA                      = (JK_EXPECT_F(workAroundMacOSXABIBreakingBug)) ? NULL : *((void **)objectPtr);
//  if(JK_EXPECT_F(workAroundMacOSXABIBreakingBug)) { goto slowClassLookup; }
//
//       if(JK_EXPECT_T(objectISA == encodeState->fastClassLookup.stringClass))     { isClass = JKClassString;     }
//  else if(JK_EXPECT_T(objectISA == encodeState->fastClassLookup.numberClass))     { isClass = JKClassNumber;     }
//  else if(JK_EXPECT_T(objectISA == encodeState->fastClassLookup.dictionaryClass)) { isClass = JKClassDictionary; }
//  else if(JK_EXPECT_T(objectISA == encodeState->fastClassLookup.arrayClass))      { isClass = JKClassArray;      }
//  else if(JK_EXPECT_T(objectISA == encodeState->fastClassLookup.nullClass))       { isClass = JKClassNull;       }
//  else {
//  slowClassLookup:
//         if(JK_EXPECT_T([object isKindOfClass:[NSString     class]])) { if(workAroundMacOSXABIBreakingBug == NO) { encodeState->fastClassLookup.stringClass     = objectISA; } isClass = JKClassString;     }
//    else if(JK_EXPECT_T([object isKindOfClass:[NSNumber     class]])) { if(workAroundMacOSXABIBreakingBug == NO) { encodeState->fastClassLookup.numberClass     = objectISA; } isClass = JKClassNumber;     }
//    else if(JK_EXPECT_T([object isKindOfClass:[NSDictionary class]])) { if(workAroundMacOSXABIBreakingBug == NO) { encodeState->fastClassLookup.dictionaryClass = objectISA; } isClass = JKClassDictionary; }
//    else if(JK_EXPECT_T([object isKindOfClass:[NSArray      class]])) { if(workAroundMacOSXABIBreakingBug == NO) { encodeState->fastClassLookup.arrayClass      = objectISA; } isClass = JKClassArray;      }
//    else if(JK_EXPECT_T([object isKindOfClass:[NSNull       class]])) { if(workAroundMacOSXABIBreakingBug == NO) { encodeState->fastClassLookup.nullClass       = objectISA; } isClass = JKClassNull;       }
//    else {
//      if((rerunningAfterClassFormatter == NO) && (
//#ifdef __BLOCKS__
//           ((encodeState->classFormatterBlock) && ((object = encodeState->classFormatterBlock(object))                                                                         != NULL)) ||
//#endif
//           ((encodeState->classFormatterIMP)   && ((object = encodeState->classFormatterIMP(encodeState->classFormatterDelegate, encodeState->classFormatterSelector, object)) != NULL))    )) { rerunningAfterClassFormatter = YES; goto rerunAfterClassFormatter; }
//      
//      if(rerunningAfterClassFormatter == NO) { jk_encode_error(encodeState, @"Unable to serialize object class %@.", NSStringFromClass([encodeCacheObject class])); return(1); }
//      else { jk_encode_error(encodeState, @"Unable to serialize object class %@ that was returned by the unsupported class formatter.  Original object class was %@.", (object == NULL) ? @"NULL" : NSStringFromClass([object class]), NSStringFromClass([encodeCacheObject class])); return(1); }
//    }
//  }
//
//  // This is here for the benefit of the optimizer.  It allows the optimizer to do loop invariant code motion for the JKClassArray
//  // and JKClassDictionary cases when printing simple, single characters via jk_encode_write(), which is actually a macro:
//  // #define jk_encode_write1(es, dc, f) (_jk_encode_prettyPrint ? jk_encode_write1slow(es, dc, f) : jk_encode_write1fast(es, dc, f))
//  int _jk_encode_prettyPrint = JK_EXPECT_T((encodeState->serializeOptionFlags & JKSerializeOptionPretty) == 0) ? 0 : 1;
//  
//  switch(isClass) {
//    case JKClassString:
//      {
//        {
//          const unsigned char *cStringPtr = (const unsigned char *)CFStringGetCStringPtr((CFStringRef)object, kCFStringEncodingMacRoman);
//          if(cStringPtr != NULL) {
//            const unsigned char *utf8String = cStringPtr;
//            size_t               utf8Idx    = 0UL;
//
//            CFIndex stringLength = CFStringGetLength((CFStringRef)object);
//            if(JK_EXPECT_F(((encodeState->atIndex + (stringLength * 2UL) + 256UL) > encodeState->stringBuffer.bytes.length)) && JK_EXPECT_F((jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + (stringLength * 2UL) + 1024UL) == NULL))) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//
//            if(JK_EXPECT_T((encodeState->encodeOption & JKEncodeOptionStringObjTrimQuotes) == 0UL)) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\"'; }
//            for(utf8Idx = 0UL; utf8String[utf8Idx] != 0U; utf8Idx++) {
//              NSCParameterAssert(((&encodeState->stringBuffer.bytes.ptr[encodeState->atIndex]) - encodeState->stringBuffer.bytes.ptr) < (ssize_t)encodeState->stringBuffer.bytes.length);
//              NSCParameterAssert(encodeState->atIndex < encodeState->stringBuffer.bytes.length);
//              if(JK_EXPECT_F(utf8String[utf8Idx] >= 0x80U)) { encodeState->atIndex = startingAtIndex; goto slowUTF8Path; }
//              if(JK_EXPECT_F(utf8String[utf8Idx] <  0x20U)) {
//                switch(utf8String[utf8Idx]) {
//                  case '\b': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'b'; break;
//                  case '\f': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'f'; break;
//                  case '\n': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'n'; break;
//                  case '\r': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'r'; break;
//                  case '\t': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 't'; break;
//                  default: if(JK_EXPECT_F(jk_encode_printf(encodeState, NULL, 0UL, NULL, "\\u%4.4x", utf8String[utf8Idx]))) { return(1); } break;
//                }
//              } else {
//                if(JK_EXPECT_F(utf8String[utf8Idx] == '\"') || JK_EXPECT_F(utf8String[utf8Idx] == '\\') || (JK_EXPECT_F(encodeState->serializeOptionFlags & JKSerializeOptionEscapeForwardSlashes) && JK_EXPECT_F(utf8String[utf8Idx] == '/'))) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; }
//                encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = utf8String[utf8Idx];
//              }
//            }
//            NSCParameterAssert((encodeState->atIndex + 1UL) < encodeState->stringBuffer.bytes.length);
//            if(JK_EXPECT_T((encodeState->encodeOption & JKEncodeOptionStringObjTrimQuotes) == 0UL)) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\"'; }
//            jk_encode_updateCache(encodeState, cacheSlot, startingAtIndex, encodeCacheObject);
//            return(0);
//          }
//        }
//
//      slowUTF8Path:
//        {
//          CFIndex stringLength        = CFStringGetLength((CFStringRef)object);
//          CFIndex maxStringUTF8Length = CFStringGetMaximumSizeForEncoding(stringLength, kCFStringEncodingUTF8) + 32L;
//        
//          if(JK_EXPECT_F((size_t)maxStringUTF8Length > encodeState->utf8ConversionBuffer.bytes.length) && JK_EXPECT_F(jk_managedBuffer_resize(&encodeState->utf8ConversionBuffer, maxStringUTF8Length + 1024UL) == NULL)) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//        
//          CFIndex usedBytes = 0L, convertedCount = 0L;
//          convertedCount = CFStringGetBytes((CFStringRef)object, CFRangeMake(0L, stringLength), kCFStringEncodingUTF8, '?', NO, encodeState->utf8ConversionBuffer.bytes.ptr, encodeState->utf8ConversionBuffer.bytes.length - 16L, &usedBytes);
//          if(JK_EXPECT_F(convertedCount != stringLength) || JK_EXPECT_F(usedBytes < 0L)) { jk_encode_error(encodeState, @"An error occurred converting the contents of a NSString to UTF8."); return(1); }
//        
//          if(JK_EXPECT_F((encodeState->atIndex + (maxStringUTF8Length * 2UL) + 256UL) > encodeState->stringBuffer.bytes.length) && JK_EXPECT_F(jk_managedBuffer_resize(&encodeState->stringBuffer, encodeState->atIndex + (maxStringUTF8Length * 2UL) + 1024UL) == NULL)) { jk_encode_error(encodeState, @"Unable to resize temporary buffer."); return(1); }
//        
//          const unsigned char *utf8String = encodeState->utf8ConversionBuffer.bytes.ptr;
//        
//          size_t utf8Idx = 0UL;
//          if(JK_EXPECT_T((encodeState->encodeOption & JKEncodeOptionStringObjTrimQuotes) == 0UL)) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\"'; }
//          for(utf8Idx = 0UL; utf8Idx < (size_t)usedBytes; utf8Idx++) {
//            NSCParameterAssert(((&encodeState->stringBuffer.bytes.ptr[encodeState->atIndex]) - encodeState->stringBuffer.bytes.ptr) < (ssize_t)encodeState->stringBuffer.bytes.length);
//            NSCParameterAssert(encodeState->atIndex < encodeState->stringBuffer.bytes.length);
//            NSCParameterAssert((CFIndex)utf8Idx < usedBytes);
//            if(JK_EXPECT_F(utf8String[utf8Idx] < 0x20U)) {
//              switch(utf8String[utf8Idx]) {
//                case '\b': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'b'; break;
//                case '\f': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'f'; break;
//                case '\n': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'n'; break;
//                case '\r': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 'r'; break;
//                case '\t': encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = 't'; break;
//                default: if(JK_EXPECT_F(jk_encode_printf(encodeState, NULL, 0UL, NULL, "\\u%4.4x", utf8String[utf8Idx]))) { return(1); } break;
//              }
//            } else {
//              if(JK_EXPECT_F(utf8String[utf8Idx] >= 0x80U) && (encodeState->serializeOptionFlags & JKSerializeOptionEscapeUnicode)) {
//                const unsigned char *nextValidCharacter = NULL;
//                UTF32                u32ch              = 0U;
//                ConversionResult     result;
//
//                if(JK_EXPECT_F((result = ConvertSingleCodePointInUTF8(&utf8String[utf8Idx], &utf8String[usedBytes], (UTF8 const **)&nextValidCharacter, &u32ch)) != conversionOK)) { jk_encode_error(encodeState, @"Error converting UTF8."); return(1); }
//                else {
//                  utf8Idx = (nextValidCharacter - utf8String) - 1UL;
//                  if(JK_EXPECT_T(u32ch <= 0xffffU)) { if(JK_EXPECT_F(jk_encode_printf(encodeState, NULL, 0UL, NULL, "\\u%4.4x", u32ch)))                                                           { return(1); } }
//                  else                              { if(JK_EXPECT_F(jk_encode_printf(encodeState, NULL, 0UL, NULL, "\\u%4.4x\\u%4.4x", (0xd7c0U + (u32ch >> 10)), (0xdc00U + (u32ch & 0x3ffU))))) { return(1); } }
//                }
//              } else {
//                if(JK_EXPECT_F(utf8String[utf8Idx] == '\"') || JK_EXPECT_F(utf8String[utf8Idx] == '\\') || (JK_EXPECT_F(encodeState->serializeOptionFlags & JKSerializeOptionEscapeForwardSlashes) && JK_EXPECT_F(utf8String[utf8Idx] == '/'))) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\\'; }
//                encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = utf8String[utf8Idx];
//              }
//            }
//          }
//          NSCParameterAssert((encodeState->atIndex + 1UL) < encodeState->stringBuffer.bytes.length);
//          if(JK_EXPECT_T((encodeState->encodeOption & JKEncodeOptionStringObjTrimQuotes) == 0UL)) { encodeState->stringBuffer.bytes.ptr[encodeState->atIndex++] = '\"'; }
//          jk_encode_updateCache(encodeState, cacheSlot, startingAtIndex, encodeCacheObject);
//          return(0);
//        }
//      }
//      break;
//
//    case JKClassNumber:
//      {
//             if(object == (id)kCFBooleanTrue)  { return(jk_encode_writen(encodeState, cacheSlot, startingAtIndex, encodeCacheObject, "true",  4UL)); }
//        else if(object == (id)kCFBooleanFalse) { return(jk_encode_writen(encodeState, cacheSlot, startingAtIndex, encodeCacheObject, "false", 5UL)); }
//        
//        const char         *objCType = [object objCType];
//        char                anum[256], *aptr = &anum[255];
//        int                 isNegative = 0;
//        unsigned long long  ullv;
//        long long           llv;
//        
//        if(JK_EXPECT_F(objCType == NULL) || JK_EXPECT_F(objCType[0] == 0) || JK_EXPECT_F(objCType[1] != 0)) { jk_encode_error(encodeState, @"NSNumber conversion error, unknown type.  Type: '%s'", (objCType == NULL) ? "<NULL>" : objCType); return(1); }
//        
//        switch(objCType[0]) {
//          case 'c': case 'i': case 's': case 'l': case 'q':
//            if(JK_EXPECT_T(CFNumberGetValue((CFNumberRef)object, kCFNumberLongLongType, &llv)))  {
//              if(llv < 0LL)  { ullv = -llv; isNegative = 1; } else { ullv = llv; isNegative = 0; }
//              goto convertNumber;
//            } else { jk_encode_error(encodeState, @"Unable to get scalar value from number object."); return(1); }
//            break;
//          case 'C': case 'I': case 'S': case 'L': case 'Q': case 'B':
//            if(JK_EXPECT_T(CFNumberGetValue((CFNumberRef)object, kCFNumberLongLongType, &ullv))) {
//            convertNumber:
//              if(JK_EXPECT_F(ullv < 10ULL)) { *--aptr = ullv + '0'; } else { while(JK_EXPECT_T(ullv > 0ULL)) { *--aptr = (ullv % 10ULL) + '0'; ullv /= 10ULL; NSCParameterAssert(aptr > anum); } }
//              if(isNegative) { *--aptr = '-'; }
//              NSCParameterAssert(aptr > anum);
//              return(jk_encode_writen(encodeState, cacheSlot, startingAtIndex, encodeCacheObject, aptr, &anum[255] - aptr));
//            } else { jk_encode_error(encodeState, @"Unable to get scalar value from number object."); return(1); }
//            break;
//          case 'f': case 'd':
//            {
//              double dv;
//              if(JK_EXPECT_T(CFNumberGetValue((CFNumberRef)object, kCFNumberDoubleType, &dv))) {
//                if(JK_EXPECT_F(!isfinite(dv))) { jk_encode_error(encodeState, @"Floating point values must be finite.  JSON does not support NaN or Infinity."); return(1); }
//                return(jk_encode_printf(encodeState, cacheSlot, startingAtIndex, encodeCacheObject, "%.17g", dv));
//              } else { jk_encode_error(encodeState, @"Unable to get floating point value from number object."); return(1); }
//            }
//            break;
//          default: jk_encode_error(encodeState, @"NSNumber conversion error, unknown type.  Type: '%c' / 0x%2.2x", objCType[0], objCType[0]); return(1); break;
//        }
//      }
//      break;
//    
//    case JKClassArray:
//      {
//        int     printComma = 0;
//        CFIndex arrayCount = CFArrayGetCount((CFArrayRef)object), idx = 0L;
//        if(JK_EXPECT_F(jk_encode_write1(encodeState, 1L, "["))) { return(1); }
//        if(JK_EXPECT_F(arrayCount > 1020L)) {
//          for(id arrayObject in object)          { if(JK_EXPECT_T(printComma)) { if(JK_EXPECT_F(jk_encode_write1(encodeState, 0L, ","))) { return(1); } } printComma = 1; if(JK_EXPECT_F(jk_encode_add_atom_to_buffer(encodeState, arrayObject)))  { return(1); } }
//        } else {
//          void *objects[1024];
//          CFArrayGetValues((CFArrayRef)object, CFRangeMake(0L, arrayCount), (const void **)objects);
//          for(idx = 0L; idx < arrayCount; idx++) { if(JK_EXPECT_T(printComma)) { if(JK_EXPECT_F(jk_encode_write1(encodeState, 0L, ","))) { return(1); } } printComma = 1; if(JK_EXPECT_F(jk_encode_add_atom_to_buffer(encodeState, objects[idx]))) { return(1); } }
//        }
//        return(jk_encode_write1(encodeState, -1L, "]"));
//      }
//      break;
//
//    case JKClassDictionary:
//      {
//        int     printComma      = 0;
//        CFIndex dictionaryCount = CFDictionaryGetCount((CFDictionaryRef)object), idx = 0L;
//        id      enumerateObject = JK_EXPECT_F(_jk_encode_prettyPrint) ? [[object allKeys] sortedArrayUsingSelector:@selector(compare:)] : object;
//
//        if(JK_EXPECT_F(jk_encode_write1(encodeState, 1L, "{"))) { return(1); }
//        if(JK_EXPECT_F(_jk_encode_prettyPrint) || JK_EXPECT_F(dictionaryCount > 1020L)) {
//          for(id keyObject in enumerateObject) {
//            if(JK_EXPECT_T(printComma)) { if(JK_EXPECT_F(jk_encode_write1(encodeState, 0L, ","))) { return(1); } }
//            printComma = 1;
//            void *keyObjectISA = *((void **)keyObject);
//            if(JK_EXPECT_F((keyObjectISA != encodeState->fastClassLookup.stringClass)) && JK_EXPECT_F(([keyObject isKindOfClass:[NSString class]] == NO))) { jk_encode_error(encodeState, @"Key must be a string object."); return(1); }
//            if(JK_EXPECT_F(jk_encode_add_atom_to_buffer(encodeState, keyObject)))                                                        { return(1); }
//            if(JK_EXPECT_F(jk_encode_write1(encodeState, 0L, ":")))                                                                      { return(1); }
//            if(JK_EXPECT_F(jk_encode_add_atom_to_buffer(encodeState, (void *)CFDictionaryGetValue((CFDictionaryRef)object, keyObject)))) { return(1); }
//          }
//        } else {
//          void *keys[1024], *objects[1024];
//          CFDictionaryGetKeysAndValues((CFDictionaryRef)object, (const void **)keys, (const void **)objects);
//          for(idx = 0L; idx < dictionaryCount; idx++) {
//            if(JK_EXPECT_T(printComma)) { if(JK_EXPECT_F(jk_encode_write1(encodeState, 0L, ","))) { return(1); } }
//            printComma = 1;
//            void *keyObjectISA = *((void **)keys[idx]);
//            if(JK_EXPECT_F(keyObjectISA != encodeState->fastClassLookup.stringClass) && JK_EXPECT_F([(id)keys[idx] isKindOfClass:[NSString class]] == NO)) { jk_encode_error(encodeState, @"Key must be a string object."); return(1); }
//            if(JK_EXPECT_F(jk_encode_add_atom_to_buffer(encodeState, keys[idx])))    { return(1); }
//            if(JK_EXPECT_F(jk_encode_write1(encodeState, 0L, ":")))                  { return(1); }
//            if(JK_EXPECT_F(jk_encode_add_atom_to_buffer(encodeState, objects[idx]))) { return(1); }
//          }
//        }
//        return(jk_encode_write1(encodeState, -1L, "}"));
//      }
//      break;
//
//    case JKClassNull: return(jk_encode_writen(encodeState, cacheSlot, startingAtIndex, encodeCacheObject, "null", 4UL)); break;
//
//    default: jk_encode_error(encodeState, @"Unable to serialize object class %@.", NSStringFromClass([object class])); return(1); break;
//  }
//
//  return(0);
//}
//
//
//@implementation JKSerializer
//
//+ (id)serializeObject:(id)object options:(JKSerializeOptionFlags)optionFlags encodeOption:(JKEncodeOptionType)encodeOption block:(JKSERIALIZER_BLOCKS_PROTO)block delegate:(id)delegate selector:(SEL)selector error:(NSError **)error
//{
//  return([[[[self alloc] init] autorelease] serializeObject:object options:optionFlags encodeOption:encodeOption block:block delegate:delegate selector:selector error:error]);
//}
//
//- (id)serializeObject:(id)object options:(JKSerializeOptionFlags)optionFlags encodeOption:(JKEncodeOptionType)encodeOption block:(JKSERIALIZER_BLOCKS_PROTO)block delegate:(id)delegate selector:(SEL)selector error:(NSError **)error
//{
//#ifndef __BLOCKS__
//#pragma unused(block)
//#endif
//  NSParameterAssert((object != NULL) && (encodeState == NULL) && ((delegate != NULL) ? (block == NULL) : 1) && ((block != NULL) ? (delegate == NULL) : 1) &&
//                    (((encodeOption & JKEncodeOptionCollectionObj) != 0UL) ? (((encodeOption & JKEncodeOptionStringObj)     == 0UL) && ((encodeOption & JKEncodeOptionStringObjTrimQuotes) == 0UL)) : 1) &&
//                    (((encodeOption & JKEncodeOptionStringObj)     != 0UL) ?  ((encodeOption & JKEncodeOptionCollectionObj) == 0UL)                                                                 : 1));
//
//  id returnObject = NULL;
//
//  if(encodeState != NULL) { [self releaseState]; }
//  if((encodeState = (struct JKEncodeState *)calloc(1UL, sizeof(JKEncodeState))) == NULL) { [NSException raise:NSMallocException format:@"Unable to allocate state structure."]; return(NULL); }
//
//  if((error != NULL) && (*error != NULL)) { *error = NULL; }
//
//  if(delegate != NULL) {
//    if(selector                               == NULL) { [NSException raise:NSInvalidArgumentException format:@"The delegate argument is not NULL, but the selector argument is NULL."]; }
//    if([delegate respondsToSelector:selector] == NO)   { [NSException raise:NSInvalidArgumentException format:@"The serializeUnsupportedClassesUsingDelegate: delegate does not respond to the selector argument."]; }
//    encodeState->classFormatterDelegate = delegate;
//    encodeState->classFormatterSelector = selector;
//    encodeState->classFormatterIMP      = (JKClassFormatterIMP)[delegate methodForSelector:selector];
//    NSCParameterAssert(encodeState->classFormatterIMP != NULL);
//  }
//
//#ifdef __BLOCKS__
//  encodeState->classFormatterBlock                          = block;
//#endif
//  encodeState->serializeOptionFlags                         = optionFlags;
//  encodeState->encodeOption                                 = encodeOption;
//  encodeState->stringBuffer.roundSizeUpToMultipleOf         = (1024UL * 32UL);
//  encodeState->utf8ConversionBuffer.roundSizeUpToMultipleOf = 4096UL;
//    
//  unsigned char stackJSONBuffer[JK_JSONBUFFER_SIZE] JK_ALIGNED(64);
//  jk_managedBuffer_setToStackBuffer(&encodeState->stringBuffer,         stackJSONBuffer, sizeof(stackJSONBuffer));
//
//  unsigned char stackUTF8Buffer[JK_UTF8BUFFER_SIZE] JK_ALIGNED(64);
//  jk_managedBuffer_setToStackBuffer(&encodeState->utf8ConversionBuffer, stackUTF8Buffer, sizeof(stackUTF8Buffer));
//
//  if(((encodeOption & JKEncodeOptionCollectionObj) != 0UL) && (([object isKindOfClass:[NSArray  class]] == NO) && ([object isKindOfClass:[NSDictionary class]] == NO))) { jk_encode_error(encodeState, @"Unable to serialize object class %@, expected a NSArray or NSDictionary.", NSStringFromClass([object class])); goto errorExit; }
//  if(((encodeOption & JKEncodeOptionStringObj)     != 0UL) &&  ([object isKindOfClass:[NSString class]] == NO))                                                         { jk_encode_error(encodeState, @"Unable to serialize object class %@, expected a NSString.", NSStringFromClass([object class])); goto errorExit; }
//
//  if(jk_encode_add_atom_to_buffer(encodeState, object) == 0) {
//    BOOL stackBuffer = ((encodeState->stringBuffer.flags & JKManagedBufferMustFree) == 0UL) ? YES : NO;
//    
//    if((encodeState->atIndex < 2UL))
//    if((stackBuffer == NO) && ((encodeState->stringBuffer.bytes.ptr = (unsigned char *)reallocf(encodeState->stringBuffer.bytes.ptr, encodeState->atIndex + 16UL)) == NULL)) { jk_encode_error(encodeState, @"Unable to realloc buffer"); goto errorExit; }
//
//    switch((encodeOption & JKEncodeOptionAsTypeMask)) {
//      case JKEncodeOptionAsData:
//        if(stackBuffer == YES) { if((returnObject = [(id)CFDataCreate(                 NULL,                encodeState->stringBuffer.bytes.ptr, (CFIndex)encodeState->atIndex)                                  autorelease]) == NULL) { jk_encode_error(encodeState, @"Unable to create NSData object"); } }
//        else                   { if((returnObject = [(id)CFDataCreateWithBytesNoCopy(  NULL,                encodeState->stringBuffer.bytes.ptr, (CFIndex)encodeState->atIndex, NULL)                            autorelease]) == NULL) { jk_encode_error(encodeState, @"Unable to create NSData object"); } }
//        break;
//
//      case JKEncodeOptionAsString:
//        if(stackBuffer == YES) { if((returnObject = [(id)CFStringCreateWithBytes(      NULL, (const UInt8 *)encodeState->stringBuffer.bytes.ptr, (CFIndex)encodeState->atIndex, kCFStringEncodingUTF8, NO)       autorelease]) == NULL) { jk_encode_error(encodeState, @"Unable to create NSString object"); } }
//        else                   { if((returnObject = [(id)CFStringCreateWithBytesNoCopy(NULL, (const UInt8 *)encodeState->stringBuffer.bytes.ptr, (CFIndex)encodeState->atIndex, kCFStringEncodingUTF8, NO, NULL) autorelease]) == NULL) { jk_encode_error(encodeState, @"Unable to create NSString object"); } }
//        break;
//
//      default: jk_encode_error(encodeState, @"Unknown encode as type."); break;
//    }
//
//    if((returnObject != NULL) && (stackBuffer == NO)) { encodeState->stringBuffer.flags &= ~JKManagedBufferMustFree; encodeState->stringBuffer.bytes.ptr = NULL; encodeState->stringBuffer.bytes.length = 0UL; }
//  }
//
//errorExit:
//  if((encodeState != NULL) && (error != NULL) && (encodeState->error != NULL)) { *error = encodeState->error; encodeState->error = NULL; }
//  [self releaseState];
//
//  return(returnObject);
//}
//
//- (void)releaseState
//{
//  if(encodeState != NULL) {
//    jk_managedBuffer_release(&encodeState->stringBuffer);
//    jk_managedBuffer_release(&encodeState->utf8ConversionBuffer);
//    free(encodeState); encodeState = NULL;
//  }  
//}
//
//- (void)dealloc
//{
//  [self releaseState];
//  [super dealloc];
//}
//
//@end
//
//@implementation NSString (JSONKitSerializing)
//
//////////////
//#pragma mark Methods for serializing a single NSString.
//////////////
//
//// Useful for those who need to serialize just a NSString.  Otherwise you would have to do something like [NSArray arrayWithObject:stringToBeJSONSerialized], serializing the array, and then chopping of the extra ^\[.*\]$ square brackets.
//
//// NSData returning methods...
//
//- (NSData *)JSONData
//{
//  return([self JSONDataWithOptions:JKSerializeOptionNone includeQuotes:YES error:NULL]);
//}
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions includeQuotes:(BOOL)includeQuotes error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | ((includeQuotes == NO) ? JKEncodeOptionStringObjTrimQuotes : 0UL) | JKEncodeOptionStringObj) block:NULL delegate:NULL selector:NULL error:error]);
//}
//
//// NSString returning methods...
//
//- (NSString *)JSONString
//{
//  return([self JSONStringWithOptions:JKSerializeOptionNone includeQuotes:YES error:NULL]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions includeQuotes:(BOOL)includeQuotes error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | ((includeQuotes == NO) ? JKEncodeOptionStringObjTrimQuotes : 0UL) | JKEncodeOptionStringObj) block:NULL delegate:NULL selector:NULL error:error]);
//}
//
//@end
//
//@implementation NSArray (JSONKitSerializing)
//
//// NSData returning methods...
//
//- (NSData *)JSONData
//{
//  return([JKSerializer serializeObject:self options:JKSerializeOptionNone encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:NULL]);
//}
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:error]);
//}
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingDelegate:(id)delegate selector:(SEL)selector error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:NULL delegate:delegate selector:selector error:error]);
//}
//
//// NSString returning methods...
//
//- (NSString *)JSONString
//{
//  return([JKSerializer serializeObject:self options:JKSerializeOptionNone encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:NULL]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:error]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingDelegate:(id)delegate selector:(SEL)selector error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:NULL delegate:delegate selector:selector error:error]);
//}
//
//@end
//
//@implementation NSDictionary (JSONKitSerializing)
//
//// NSData returning methods...
//
//- (NSData *)JSONData
//{
//  return([JKSerializer serializeObject:self options:JKSerializeOptionNone encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:NULL]);
//}
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:error]);
//}
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingDelegate:(id)delegate selector:(SEL)selector error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:NULL delegate:delegate selector:selector error:error]);
//}
//
//// NSString returning methods...
//
//- (NSString *)JSONString
//{
//  return([JKSerializer serializeObject:self options:JKSerializeOptionNone encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:NULL]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:NULL delegate:NULL selector:NULL error:error]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingDelegate:(id)delegate selector:(SEL)selector error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:NULL delegate:delegate selector:selector error:error]);
//}
//
//@end
//
//
//#ifdef __BLOCKS__
//
//@implementation NSArray (JSONKitSerializingBlockAdditions)
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingBlock:(id(^)(id object))block error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:block delegate:NULL selector:NULL error:error]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingBlock:(id(^)(id object))block error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:block delegate:NULL selector:NULL error:error]);
//}
//
//@end
//
//@implementation NSDictionary (JSONKitSerializingBlockAdditions)
//
//- (NSData *)JSONDataWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingBlock:(id(^)(id object))block error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsData | JKEncodeOptionCollectionObj) block:block delegate:NULL selector:NULL error:error]);
//}
//
//- (NSString *)JSONStringWithOptions:(JKSerializeOptionFlags)serializeOptions serializeUnsupportedClassesUsingBlock:(id(^)(id object))block error:(NSError **)error
//{
//  return([JKSerializer serializeObject:self options:serializeOptions encodeOption:(JKEncodeOptionAsString | JKEncodeOptionCollectionObj) block:block delegate:NULL selector:NULL error:error]);
//}
//
//@end
//
//#endif // __BLOCKS__
//
